The Orange-fronted Parakeet (Aratinga canicularis) occurs in tropical deciduous
and scrub-thorn forests of Pacific mountain slopes and lowlands from Sinaloa, Mxico,
to Costa Rica. Within that range, this small parrot is often nomadic but probably non-
migratory; it is highly social in flocks, abundant, and conspicuous.
In the present study, birds of three distinct populations (named as A. c. clarae,
A. c. eburnirostrum, and A. c. canicularis) were investigated. The first of these is north-
ernmost in distribution, primarily in the state of Sinaloa, Mxico, the second occupies
an intermediate range from there south to northern Oaxaca, while the last occurs from
the Isthmus of Tehuantepec, Oaxaca, southward. The study was divided into three
parts: observation of nesting habits in Sinaloa (A. c. clarae), observation of postbreed-
ing flock behavior in Chiapas (A. c. canicularis), and observation of behavior of captive
birds in aviaries ( A. c. canicularis and A. c. eburnirostrum ).
ACKNOWLEDGMENTS
I am indebted to the Hartz Mountain Products Corporation and its former research
advisor, Dr. Morris Pollard, of the Medical Branch, University of Texas, who directed
funds toward the support of the research. Thanks are also due Dr. Karl Meyer of the
University of California Medical School for providing captive parrots for these studies,
Dr. 'John Hughes, of the United States Department of Public Health, for permission
to import psittacine birds, Dr. Thomas R. Howell and the University of California, Los
Angeles, for permission to use certain facilities, and Dr. Richard F. Johnston, of the
Museum of Natural History, University of Kansas, for critically reading the manuscript
of this paper and providing helpful suggestions. Finally, my appreciation goes to
Mr. K. C. Lint, curator of birds at the San Diego Zoo, who provided me with unpub-
lished data on the habits of the Orange-fronted Parakeet in captivity.
MATERIALS AND METHODS
In observation of nesting in the wild, a blind was often employed, and in examination
of nest contents a small mirror, described later, was useful. Experiments on breeding
of captive birds involved construction of simulated termitaria made of plastic and of
cork.
About one-half the parrots held in captivity in aviaries by me were purchased from
Mexican bird dealers in the market places of Tuxtla Gutierrez, Chiapas, and Tehuan-
tepec, Oaxaca, in July, 1959. A second group of 12 individuals was obtained in October,
1960, from the University of California Medical School, San Francisco.
Observations of captive birds were usually made from outside the aviaries and
normally consisted of a one- to three-hour period each morning in the first year of the
study. In the second year, 20-minute observation periods, usually two or three suc-
cessively, were used three to five mornings per week. Occasional and brief observational
periods were sometimes undertaken in afternoon and evening hours and rarely also at
night. In the third year, when studies were made of breeding in captivity, several
[ 169 ]
10- to 12-hour observation periods were arranged so that attentiveness at the nest could
be assessed. I entered the aviaries only to clean them, provide food, or occasionally for
photographic purposes. In the first year, birds were housed in an indoor aviary at the
University of Kansas; in the second year, they were housed in two aviaries on the roof
of the Life Science Building, University of California, Los Angeles. Beginning in Janu-
ary, 1962, all birds were housed in an aviary at Occidental College. The parakeets
were color banded and sexes determined by laparotomy.
Besides direct observation and the recording of notes, motion and still pictures
were often made of specific behavioral aspects, and typical vocalizations were recorded
on magnetic tape.
Fig. 1. Displays of the Orange-fronted Parakeet (Aratinga canicularis). a, Bill-wiping;
b, perch-biting; c, high-intensity perch-biting; note constriction of pupil of eye.
EPIGAMIC AND ASSOCIATED BEHAVIOR
Described here are behavioral components of several types, including relatively
pure epigamic activities, ambivalent activities wherein epigamic and other tendencies
are represented in approximate "balance," and behavior that may be termed appease-
ment activity. The word component is used herein to denote a discrete behavior or
act, one that is an integral part of a display or other behavioral sequence.
COMPONENTS OF COURTSHIP FEEDING DISPLAY
Dilger (1960: 679-680) believes that in the African love-bird parakeets (Agapornis
sp.) courtship feeding is not sexually motivated but is rather a means of enforcing
the pair bond. He cites the fact that courtship feeding occurs at all times of the year,
that it may often immediately foll/w successful copulation, and that in some species
(Agapornis cana and A. taranta) females frequently feed their mates in captivity.
Whether the latter behavior exists in nature is unknown. In captive Aratinga canicularis,
females may perform courtship feeding in homosexual pairs. In the case of these homo-
sexual pairs, either female of a given pair performed the feeding. This agrees with
Lack's (1940:176) information for the Psittaciformes. I do not know whether females
feed males in Aratinga canicularis in nature.
Fig. 2. Preparatory components of courtship œeeding in Orange-œronted Parakeet.
a, Bird on right displays with head erect, raalar feathers fluffed; b, bird on right
still with head up, raalar feathers puffed, but now with pupils constricted, revealing
yellow irides.
In the Orange-fronted Parakeet, courtship feeding consists of a series of components,
some of which, although often associated with the display, are of highly ambivalent
character and reflect other tendencies than courtship or consummation of courtship
feeding. They usually occur early, in the weak stages of courtship feeding, when conflict
of epigamic tendency with other tendencies are expectedly greatest (see Morris, 1956;
Dilger, 1960:673-674). Other behavior, functional components of courtship feeding,
seems necessary to successful completion of the act. Although it is here recognized
that this latter behavior is in no sense "pure," there is relatively little evidence in it
of conflicting tendencies.
In a typical act of courtship feeding, two birds perch side by side. One may bite the
perch, or alternately bite the perch (fig. lbc), rub or wipe its mandibles against the
perch (fig. la), or head-waggle. Such activities seldom stimulate the partner. Next,
the displaying bird may cease manipulation of the perch and suddenly erect its head,
fluffing the malar feathers (malar-puff). Then, as quickly, the bird may return to
kneading the perch in its bill, causing a popping sound. This may be followed by erec-
tion of the head, fluffing of the malar feathers, crane-peering, pupil-flexing (fig. 2ab),
and bill-ibrating or snapping. The preceding components usually cause the partner to
move closer, fluff, or also to vibrate or snap the mandibles. The first bird may then
perform quickly several courtship feeding components: head-up chin-out, head-
bobbing, bill-grasp, bill-hold, and head-jerk. The last named compone, nt completes
the courtship feeding act. Following is a description and discussion of each component
of this ritual.
Displacement head-waggling.---In this behavior, a parakeet rapidly wags the head.
Two birds may head-waggle simultaneously, interspersing this with bill-wiping, bill-
rubbing, and perch-biting, in very weak expression of courtship feeding. Head-waggling,
unlike bill-wiping, rubbing, and perch-biting, also occurs in other contexts, along with
pupil-flexing and the inflected whistle. In courtship feeding, however, these highly
ambivalent behavioral components are not associated, head-waggling appearing early
in the expression, pupil-flexing and the whistle late in the pattern. The trophic expres-
sion of the head-waggling motor pattern occurs in feeding, wherein the motion is used
in flinging off particles of sticky foods from the bill.
Displacement bill-wiping.--Autochthonously, bill-wiping is employed to clean the
mandibles of adhering food particles, such as when fleshy fruit is being consumed, or
in freeing earth and wood particles when the nest cavity is. being excavated. Alloch-
thonously, bill-wiping becomes highly exaggerated: each side of the beak, with mand-
ibles slightly agape, is brought alternately into a wide-sweeping contact with the perch
as the parakeet faces its partner. The act is rapid and repeated several times.
Displacement bill-rubbing.--In this behavior, the parakeet places one broad side of
the mandibles against the perch and works this side back and forth or up and down
against the perch. Autochthonously, bill-rubbing is a honing operation frequently
engaged in for minutes at a time; a bird may perch beside the trunk of a rough-barked
tree and hone against it. Allochthonous bill-rubbing is exaggerated and frequently
interspersed with erection of the head, bill-wiping, and pupilsflexing.
The appearance of these weakly aggressive tendencies may result from the fact
that bill-wiping, bill-rubbing, and perch-biting usually do not elicit full acceptance of
courtship feeding by the partner but merely serve to excite the displaying bird itself.
Thwarting, except from the standpoint of apparently self-stimulating effects of the
components, thus stimulates erection of the head and pupil-flexing, both of which are
components possessing some agonistic meaning.
Displacement perch-biting. In this behavior, the perch is seized firmly between
the mandibles and bitten or chewed and twisted (fig. lb). Perch-biting is a frequent
leisure activity of psittacines, and aviculturists know that providing the aviary with
an ample supply of twigs and soft branches encourages the birds to the pass-time
behavior of chewing on these rather than alternate activities such as feather pulling.
The parakeets thus gather in small groups several times a day to engage in this behavior.
When displaced, perch-biting is much exaggerated (fig. lc) and interspersed with bill-
rubbing, popping, and components of weakly aggressive, agonistic, quality.
Popping.--This is an especially remarkable component; in it the perch is grasped
in the bill and bitten rapidly. The mandibles are moved up and down and back and
forth on the object, producing by this kneading action a vibrating, popping sound, not
unlike the rapid-fire noise made by the pecking of a woodpecker. The bill motion in
popping is like that in bill-vibrating and bill-snapping.
When a parakeet engages in popping, it draws attention to itself. Other birds in
the flock become quiet and watch the displaying bird, although usually it is possible to
determine toward which other individual the display is being directed. Components in
the sequence preceding popping frequently do not give way to subsequent stronger
elements in the behavioral series leading to courtship feeding. However, with the pop-
ping component, a behavioral stage is reached in which further components (at least
one or two) in the series may be expected. The origin of popping is not clear. As such,
it does not occur in other contexts; it perhaps is a very strong version of perch-biting.
Bill-vibrating.--In this component, the head is suddenly held erect from the perch-
biting or popping posture, the plumage of the head and sometimes of the body is slightly
fluffed, and the bill rapidly opened and closed. The mandibles do not meet, so that the
motion is noiseless. The pupils of the eyes may be slightly constricted as in bill-snapping,
revealing the yellow irides. The behavior seemingly draws attention to the bill of the
displaying bird and, perhaps, to the tongue.
Bill-snapping.--This is an intense form of the previous component; here, the
mandibles come in contact producing an audible snapping sound. Again, the pupils may
be half-flexed, and there is often an associated inflected whistle (see below). Bill-
snapping, pupil-flexing, and the inflected whistle often occur together, displaced in
ambivalent states created when a parrot is suddenly frigh[ened. There they may serve
a function of forestailing attack.
Crane-peering.--With the head erect, a parakeet, crane-peers by cocking its head
from side to side and looking hurriedly in various directions, all in a very jerky,
mechanical toy-like fashion. The malar feathers are strongly fluffed. I have not seen
crane-peering outside the context of the precourtship feeding sequence. Again, as with
popping, crane-peering may serve to draw attention to the head of the displaying bird
and may lead directly to bill contact and courtship feeding.
Malar puff.--As indicated by the term, the feathers of the malar region are fluffed,
producing a bilaterally bearded appearance (fig. 2ab). Malar-puffing strongly empha-
sizes the area around the bill and is usually a component of the display pattern involving
pupil-flexing, when components indicating threat, defense, flight, and courtship may
all occur nearly simultaneously. In the context of courtship feeding, this is usually
early in the pattern before a stimulatory effect has been produced in the partner or
at times when the response of the partner is such as to thwart the displaying bird. There
is no indication by Dilger (1960) that specific fluffing of the malar feathers occurs
as a display in Agapornis.
Pupil-flexing and infiected whistling.--These two components are typically associ-
ated with each other; although birds may flex their pupils without whistling, the whistle
is almost always accompanied by pupil flexion. Many, if not all, species of parrots
have the ability to constrict or expand the size of the pupils in relation to factors
totally apart from the direct stimulus of sudden change in light intensity. Voluntary
shortening of the focal length, for example, is accompanied by a marked reduction in
pupil size. Of course, change in size of pupil with change in focal length is probably
correlated with light condition also: when distant objects are being viewed, the pupil
must be larger than when near objects are being viewed, if the optical stimulus in each
case is to be the same.
The action of pupil flexion can be voluntary. Walls (1942:647) mentions both the
sphincter and dilator muscles in the iris. Rochon-Duvigneaud ( 1950: 225-227 ) describes
extensive circular and radial striated muscles in the irides of birds, stating that some
of these are specifically directed to changing the size of pupils while others are used
in accommodation. Thus, the existence of appropriate striated musculature in the
irides of birds indicates that the pupils can be flexed voluntarily. My own histological
examination of the iridial musculature in Aratinga canicularis, as well as in other
parrots, confirms the existence of striated muscles therein.
When an Orange-fronted Parakeet suddenly constricts and then expands the pupils,
the irides are flashed in a manner truly startling to an unsuspecting observer (fig. 2b).
This pupil flexion display is often accompanied by other components, as has been
mentioned; in the context of epigamy, these include extending the head (or erecting it),
bill-snapping, and head-fluffing, while in agonistic context, head-waving or head-wag-
gling are associated components. Pupil flexion may be full, in which case the pupil
is first but a pinhead in size and then suddenly nearly the diameter of the entire eye,
or flexion may be only partial, as in the less intense displays.
The pupil flexion display is not confined to A. canicularis. Widely differing species
throughout the order are known to employ the mechanism in some ritualized fashion.
For example, Tavistock ( 1929: 562; 1931: 283 ) mentions the constriction of the pupil
by the male of Psittacula derbiana in courtship. In this species, according to Tavistock,
pupil constriction accompanies a deep bow toward the female.
Pupil flexion display is much more prevalent outside epigamic contexts in circum-
stances having the following factors in common: a bird has been taken unaware while
involved in relaxed behavior such as casual feeding, sleeping, or preening, or the object
(other bird or human) has suddenly appeared and/or is rapidly approaching. The
normal reaction of the intruder to the display is to pause, turn away, or otherwise be
deterred from a course toward the surprised, displaying individual.
Apparently for reasons of survival, a rapidly approaching or suddenly appearing
object is treated as potentially dangerous by the bird. In order properly to deal with this
potential danger, the ability to change focus rapidly would naturally be selected for,
the process involving an appreciable change in the size of the pupil. Although the abil-
ity to change the size of the pupil is known in many birds, there is evidence, in parrots
at least, that the ritualization of this mechanism into a display that serves to forestall
intraspecific attack has accompanied the evolvement of or has been fortuitously associ-
ated with the morphological condition of pale-colored irides that contrast with dark
pupils. In the Yellow-headed Parakeet (Aratinga jendaya) of South America and the
Orange-chinned Parakeet (Brotogeris jugularis) of Mgxico and Central America, both
kept captive by me, the irides are dark brown, and no pupil flexion display is present
in these species. Nor does Dilger (1960) mention the display in Agapornis which have
dark irides. Such a display is present in a Red-crowned Parrot (Amazona viridigenalis)
in my aviary. The evolution of the display and the pale irides may thus be correlated.
Inflected cry and inflected whistle.--An inflected vocalization nearly always accom-
panies pupil flexion display in the Orange-fronted Parakeet. The whistle-like version
is easily imitated by a human whistle. It varies from a shrill whistle to a cry richer in
quality, something like crooooo. Figure 5b is a spectrographic illustration of this call.
The vocalization probably enhances the effect of the flexion by calling attention to the
displaying bird from a greater distance.
Head-up chin-out.This and the following components in courtship feeding display
are steps in returning liquid matter to the mouth from the esophagus or crop or in
the transmittal of the matter to another bird. The hypothesized purpose of courtship
feeding is affirmation or strengthening of the pair bond. 'Even though ritualized, the
motor pattern may still, although probably unnecessarily, function as a feeding mech-
anism. An actual regurgitant seems to be passed from one adult to the other. The
motor pattern of the display is apparently identical to that involved in feeding of the
young.
The head-up chin-out component is a low intensity regurgitating action. It rarely
leads directly to the head-jerk but gives way, in growing intensity, to the head-bob or,
when intensity wanes, to behavior of other context. The behavior resembles movements
made by a man attempting to avoid the constricting effects of a tight collar without
benefit of hands. Weak gaping accompanies the movements.
Head-bob.The head-bob is high-intensity regurgitating behavior. It often leads
directly to the consummatory act of the head-jerk. Readers familiar with pumping
movements of bitterns (Botaurus) will perforce have an idea of the head-bob of this
parakeet. The action is not so severe as in bitterns, but the "rippling" out-thrust of
the neck and head is similar, and the peristalsis-like effect on the upper alimentary tract
forces liquid regurgitant to the mouth.
Dilger (1960: 674-675) discusses the homologous behavior in Agapornis, terming it
head-bobbing. He found variation in number of headbobs and in rapidity of perform-
ance among several species. The performance in Aratinga canicularis apparently
resembles closely that which Dilger found in his white-eye-ringed forms, the number
of bobs being less numerous and the performance relatively slow. Dilger mentions a
possible direct correlation in Agapornis between bare or white circumorbital area and
slow bobbing with few bobs. It is well to note that in Brotogeris jugularis, which pos-
sesses no white or bare area around the eyes, the head-bob is rapid and consists of
more bobs than in Aratinga canicularis.
Bill-sparring.In order to feed its partner, a parakeet must manage to grasp the
bill of that bird with its own. The gaping of the bill and concurrent movement toward
the partner is similar to an agonistic motion, and, if performed suddenly, often elicits
a defensive response from the partner, so that momentarily the birds seem almost to fight
with their bills. Rarely, the result is a brief fight; usually the head feathers remain
fluffed and after a brief period of billsparring, one bird quietly holds the 'bill of the
other. Since either bird may perform the feeding operation in homosexual pairs, of
which there are several in my aviary, it is possible that bill-sparring sometimes occurs
at times when both birds are stimulated to perform feeding. Bill-sparring is not, it should
be emphasized, an agonistic act, and it occurs only between members of pairs or partner-
ships. Bill-sparring is the act, then, of grasping at the partner's bill whenever any con-
flict of tendencies occurs. In aggressive encounters between members of pairs, a sub-
ordinate bird may employ vague bill-sparring motions that effectively reduce agonistic
tendencies of its mate. Thus in agonistic context the effect is appeasement. The bill-
fencing of Agapornis (Dilger, 1960:661) is of an entirely different nature, being a
component of agonism, as it is in Aratinga.
Bill-grasping.--When bill-grasping occurs successfully, it requires participation of
both members of a pair or partnership. The bills of the two birds are slightly open and
interlocked at right angles to each other as in Agapornis (Dilger, op. cit.:680, not
illustrated).
The head of one bird, usually the dominant of the two (if one is in fact dominant)
and almost always the one that has initiated the act, is higher than that of its partner.
The tongues of the two birds touch each other. Occasionally, the birds cease movement
when the bills are interlocked and merely "hold-bills," as it were. Such behavior is not
frequent enough to rate consideration as a typical component of courtship feeding,
however.
Head-jerk.--This component is the consummatory act of courtship feeding. With
the bills interlocked, the heads of the two birds move rapidly back and forth from two
to six or a few more times. This movement is a rapid "push-pull" one, but, in fact,
the bird being fed seems responsible for most of it. Evidence for this comes from
young birds of the species that, when fed with an eye-dropper, gape and respond with
jerking motions when no movenent is supplied by a person providing the food. The
head-jerk may occur several times in quick succession with incipient components being
omitted between the subsequent feedings.
After completion of the head-jerk, the performers usually are quiet for several min-
utes; they may, however, follow head-jerking, with a few moments of erecting the
head, flexing the pupils, and normally associated behavior, before becoming quiet.
Con,oETs ov MuTuaL PEgNtNO aD Am, gasgNx
It is the well-developed habit of mutual preening (figs. 3a, 4ab) that, to me, seems
Fig. 3. a, Three parakeets engaged in preening and chewing behavior. Bird
on left preens neck of middle bird, which preens itself, as bird on right
chews and cleans its foot. b, Nuzzling behavior, an appeasement com-
ponent of attentiveness. Bird on left pushes bill against side of mate's
head. Note closed eyes and fluffed head feathers of bird on right.
the strongest behavioral device for actual maintenance of the pair-bond throughout the
year. Mutual preening, in which actual or potential members of pairs or partnerships
preen each others' plumage, is indulged in daily throughout the year, with no apparent
change in frequency in any season. An elaborate set of components involving elicitation,
direction of preening, and the use of the habit in appeasement (very important in a
peaceful relationship outside of the breeding season) is present in Aratinga. In com-
parison to preening in Agapornis, the development of the habit in Aratinga seems much
greater. In the former, preening only of the head is indulged in by adults (young birds
often preen other areas), whereas in Aratinga canicularis mutual preening is directed
to the head, wings, and tail areas.
Fig. 4. a, Bird on left preens neck of mate which lifts head to indicate area to be preened.
b, Bird on right now cocks head for nape to be preened.
A few components serve only to calm the aggressive tendency of the partner, not
to redirect it or to elicit another positive response. These components are seen, addition-
ally, in the context of mutual attentiveness when other components are employed to
elicit preening or feeding, or possibly a copulatory response.
In typical activity involved with appeasement and mutual preening, two birds may
fluff the plumage, draw close to each other and withdraw their heads, while closing or
nearly closing their eyes. One bird may then cock its head to solicit preening, or the
other may begin to preen the first bird and meet with a defensive response. When the
latter occurs, the bird that has offered to preen may nuzzle its excited opponent to
calm it. A second attempt may then be made to preen the calmed bird. Successful initia-
tion of preening may call forth reciprocal preening or merely the direction of the place
to be preened. This is accomplished by the preened bird slowly turning its head or
turning slightly to expose the side, undertail, or area beneath the wing.
These last three movements are like head-cocking but serve merely to direct preen-
ing to other parts of the body. Any action of agonistic nature by either bird may elicit
nuzzling behavior by the partner. Dilger (1960) does not describe nuzzling behavior
for Agapornis.
Purely appeasive components of behavior are combinations of or elaborations of
normal resting or roosting postures and movements. The first three of the following
components are of such nature.
Fluting the plumage.--Parakeets always fluff the plumage when assuming resting
state. Similar fluffing occurs or is maintained in all non-agonistic interaction of individ-
ual birds. If a parakeet exhibits fluffed plumage to an aggressive opponent or to its
mate, the latter's fierceness of approach or attack is visibly reduced; aggressive agonis
tic tendency may in fact be altogether lost quite suddenly. Additionally, a bird that
exhibits high-intensity threat components but is even slightly fluffed is unlikely to be
successful in an attack or in maintaining whatever aggressive demeanor it had toward
another bird. Plumage may be fluffed very gradually or fluffing may be initiated by a
rather violent ruffling action combined with assumption of a drooped-wing, lowered-
tail posture.
Withdrawing tke kead. Withdrawing the head connotes complete relaxation and
lack of any readiness to move in a quick manner. Always combined with it is drooping
of the wings and lowering of the tail. These three acts compose the second stage of
assuming full rest posture or the roosting state. Birds at the lower end of the social
order are more often seen in some stage of this behavior than they are in any other.
Closing tke eyes.---This signifies nearly complete absence of agonistic tendency.
Birds of reticent demeanor often keep their eyes less than fully open and often bat their
lids, especially in the presence of a socially superior bird. A parakeet may close its eyes
but not show any other signs of subordinate state or appeasiveness while engaged in
otherwise intense agonistic interaction. But, no matter how active the bird with droop-
ing eyelids or closed eyes may appear in an encounter, the bird's quick defeat is there-
after a certainty.
Nuzzling.--This and the following components serve appeasement function but are
also components in solicitation of preening from another individual.
A bird may nuzzle its partner with the eyes open (fig. 3b) or closed. An individual is
appeasive only toward its partner, typically edging close to the latter and gently pushing
with the bill in the feathers of the partner's neck, breast, back, or rarely, abdominal
region. A bird that is behaving ambivalently toward its partner utilizes nuzzling to allay
the latter's agonistic (either defensive or aggressive) behavior, stimulated by the
appeaser's alternately aggressive demeanor. Once the partner becomes "contented,"
the appeaser then abandons nuzzling, assuming an attentive attitude, often gradually
becoming so fierce in this attentivehess as to require again the appeasive nuzzling. This
may continue for several cycles.
Wing-up, tail-up.---When a parakeet lifts a wing but does not spread it or bends for-
ward slightly lifting the tail, the bird thereby solicits its partner to preen the sides and
underwings or the tail area. In the latter area either the rectrices or the coverts may
be preened in response to the tail-up. Frequently, if the solicited bird's preening tend-
ency is not great, the wing-up stimulates agonistic leg-grabbing or, in the case of the
tail-up, pulling of the tail feathers.
PRE-MATING OR PRE-COPULATORY COMPONENTS
Switch-sidle and pusking.--In this behavior, a parakeet, as Dilger (1950:574) has
described in Agapornis, "sidles along the perch toward or away from the female, repeat-
edly turning around as he does so." If the partner exhibits no sign of interest in sexual
behavior when a parakeet approaches by switch-sidling, the approaching bird turns
away. When the partner indicates by fluffing, stooping, or leaning forward, that approach
is favored, the other parakeet "edges in" and, turning so that it is parallel to the partner,
pushes against the latter's side with the wrist area of the wing. The wing may be com-
pletely folded or slightly to fully extended; in the latter state, the sides of the two
birds may be in contact and the open wing slightly over-hanging the bird being pushed.
Clawing.--This action is only superficially a clawing motion and has no relation-
ship to any agonistic behavior. In clawing, a parakeet raises the foot closest to the
partner and gently waves it in the air or places it on the back, wing, or side of the
partner. Clawing is weak incipient mounting behavior in A. canicularis. On two occa-
sions I have observed it to be followed by somewhat stronger attempts to mount in
seeming preparation for copulation. On one occasion it was seen to precede copulation.
Rarely, clawing occurs in appeasement behavior: when an individual is attacked it
may accompany this with fluffing, closing the eyes and other typically appeasive
behavior.
The foregoing accounts complete the description of components of epigamic and
reproductive behavior except for two, dueting and display flight. These were not
observed in captive birds but were seen occasionally in the wild by me (see p. 188).
VOCAZATOS
A detailed analysis of vocalizations in Orange-fronted Parakeets is now underway,
but the basic call patterns are mentioned here. One vocalization, the inflected whistle
and call, associated with ambivalent behavior, has been discussed previously (p. 174).
Like most parrots, A. cardcularis has a large vocabulary, the size and flexibility of
which can only be appreciated by those who have kept a flock of these birds in captiv-
ity. The complexity of this vocabulary makes phonetic notation frustrating. Certain
call-groups are distinguishable immediately, however; two are typical of agonistic
behavior, while others connote appeasement, content, epigamic tendencies, and alarm.
The character and significance of these vocalizations are as follows.
c d
4
0 .2 ,4 .6 .s 1.0 1;2 .'a .6
TIME IN SECOtqDS
Fig. 5. Sonagrams of four vocalizations of the Orange-fronted Parakeet. a, Epigamic
song-like call; b, inflected whistle; c, d, two versions of the peach call associated with
initiation of flock activity such as feeding. (All narrow band filter.)
Group I. Annoyance squawks.---These are associated with agonistic behavior, not
considered in this paper. Squawks usually accompany the ultimate component of inti-
midatory action. They may, however, signify almost any kind of annoyance and thus are
frequent in the context of intense courtship display, associated there with ambivalence
and thwarting. The lowest intensity squawks resemble short scolding notes of finches,
whereas higher intensity forms are broader in frequency spectrum and harsher. Figure
6d illustrates squawking. Note that the patterns shown are almost pure noise, revealing
no distinct harmonic waves.
d e
0 ., ' .i .) ' .8 1.0 1.2 1.'4 1 6
TIME IN SECONDS
Fig. 6. Upper: Sonagrams of two arning or alarm calls of the Orange-fronted Para-
keet. a, b, Low-intensity alerting "mutter," narrow band and wide band filter, respec-
tively. Note steep wave front and marked segmentation of this call as revealed in b.
c, High-intensity alarm call.
Lower: Sonograms of two vocalizations of the Orange-fronted Parakeet. d, Annoy-
ance squawk; e, intra-pair call (chee-chee). Narrow band filter.
Group II. Warning cries.--Vocalizations of this category are stimulated by pred-
ators or predator-like stimuli. Two basic intensities are common and are shown in
figure 6. The low intensity alerting signal (fig. 6ab) may be described as a "stuttering
mutter." It is represented in illustration by both narrow and wide band filter analysis.
Wide band analysis reveals the marked segmentation characteristic of calls with steep
wave fronts. This alerting signal is stimulated by incipient recognition or discovery of
a predator. In captivity, detection of the human observer often elicits it. It accompanies
termination of activities and is accompanied by movements indicating uneasiness,
such as peering, shifting movements of the feet, edging of the birds along their perches,
crouch, and waving of the wings; the last two are intention movements of flight. Any
sudden change in the activities or attitude of the supposed predator following low
intensity alerting may cause the parakeets to break into high intensity alarm cries.
As suggested in figure 6c the loud alarm cry is the "noisiest" of all vocalizations. Tape
recorded examples of this vocalization played to the captive birds cause them to exhibit
fear reactions, sometimes including flights of panic if the vocalizations are presented
suddenly and with no previous warning of danger.
'Group III. Epigamic calls.-There are many variations in these calls, but all are
melodious or "sweet." The inflected whistle call often associated with ambivalence in
courtship is illustrated in figure 5a. This is the song-like calling most frequently heard
in conjunction with high-intensity activity around the nest. Prolonged utterance of
such calls by a pair I have termed dueting.
Dueting of A. canicularis is performed by members of a pair while in slow, almost
hovering, flight toward the nest tree. It is seen only occasionally and occurs in the
early stages of the reproductive cycle. Both birds vocalize in chattering fashion simul-
taneously, there being no alternation of calling. In Brotogeris jugularis, dueting in
captivity is performed while the pair is perched and there is alternation of the calls:
one bird calls chqw, the other chee at slightly higher pitch. The rapid utterance results
in chew chee chew chee chew chee, in sing-song fashion with no overlap in the sequential
syllables.
Group IV. Conversation and activity calls.--These vocalizations, especially at high-
intensity, resemble epigamic dueting, except that many or all members of a flock may
indulge in them simultaneously. In addition, such calls may be stimulated by either
epigamic activities of a pair or conflict between two birds or two pairs of birds. In the
latter context, the chattering flock conversation is given mostly by the birds not engaged
in fighting. Lower-intensity chatter--a stuttering conglomeration of highly varied melo-
dious "conversation"--accompanies flock feeding (where it is interspersed with harsher
annoyance squawking as individual distance is maintained), excavation of the nest-
cavity, and other active, but generally non-agonistic, non-flight behavior. Such vocali-
zations may, thus, precede assumption of roosting position and the birds' attempt to
reach favored roost sites.
Group V. Activity initiation calL--Represented in figure 5cd the peach call is a
type of social flock vocalization that accompanies initiation of feeding or other flock
activity and is not heard outside this context. It is not a flight call, but accompanies
change in activity in the wild while a flock is perched in a tree. In captive birds the
peach call accompanies the climbing or flying of the birds to food trays and ceases
shortly after feeding has commenced.
Group VI. Flock social or assembly calls.--These calls are not shown in spectro-
graphic illustration, but resemble intrapair signals (fig. 6e) although they are more
prolonged and complex. Members of flocks exchange such calls in flight, flocks in trees
similarly call to flocks flying overhead, and a stray individual gives this call while flying
about attempting to locate its fellows. Aviary birds answer vociferously when flock
social calls are played to them via a tape-recording. A flock which I maintain in an
aviary is rather more vocal than normal in daylight hours because its members seem
to receive stimulation to call from the echoes of their own flock social call reverberating
from a building 200 feet away.
Group VII. Intra-pair signals.---These consist of two- or three-note calls (fig. 6e),
something like chee chee or chee clee chew, exchanged by members of a pair in flight
or between the male outside the nest and the female inside. The female may utter such
notes just after entering the nest or shortly before leaving the nest. The male may give
such a call upon arriving near the nest after an absence of several minutes. Both birds
may utter the call as they fly past the nest, possibly as a signal to the young inside.
Group VIII. Conlent-rest calls.--At rest diurnally and while roosting, these para-
keets seldom cease vocalization for more than a few minutes at a time. Two types of
contentsrest calls are given, and each is associated with specific resting movements.
The "breath squeak" is normally given only in diurnal rest periods. It is a short whimper,
consisting of a single note, given very softly with each exhalation, for periods of a few
seconds to several minutes. Certain individuals in my captive flock are more prone
than others to indulge in this vocalization. These birds seem otherwise not clearly
distinguishable from the non-squeaking members of the flock, behaviorally or from
the standpoint of health factors. Breath-squeaking accompanies complete resting
behavior, often including sleep.
Parakeets more or less continually indulge in yawning and gaping when at rest
or roosting. A vocalization here termed the yawning call accompanies this habit. A flock
at roost in the dark is conspicuous because of this vocalization. Yawning is also inter-
spersed with other gaping, tongue movements, and chewing, which movements cause
audible, mechanically produced sounds from the roosting birds.
BREEDING BEHAVIOR
The distribution of the Orange-fronted Parakeet closely approximates that of the
colonial termite Eutermes (Nasutitermes) nigriceps. The correlation is a natural one,
because these parrots most frequently construct their nests by digging out cavities in
termitaria. Where these termitaria are abundant, the parrots seem almost wholly de
pendent upon them for nest sites. Dickey and van Rossera (1938:205) state that old
woodpecker nest cavities and natural hollows in trees are used. Nonetheless, .4. canicu-
laris seems not to be found breeding outside the geographic range of the termite, and
it thus may be postulated that the parrot is not capable of maintaining populations
without symbiotic association with the termite. Throughout most of its range, this parrot
competes with few other birds for these nest sites. Brotogeris ugularis and some trogons
such as the Citreoline Trogon (Trogon citreolus) use termite nests occasionally but
apparently do not compete successfully with .4ratinga canicularis, whereas the Green
Parakeet (.4. ]olochlora), which also uses termite nests habitually, occurs in slightly
different habitat for the most part. On the other hand, competition with other birds for
woodpecker holes is undoubtedly more severe.
Von Hagen ( 1938) was the first to give a detailed account of the biology of Eutermes,
basing this account on observations of E. nigriceps in Guerrero and Oaxaca, Mxico,
and elsewhere in the New World tropics. He devotes one section of his treatise to a
discussion of the parakeet-termite relationship, discussing briefly the digging by the
birds and other aspects of nesting that bear importantly on the biological success of
the termite.
Readers are referred to Von Hagen's work for information on the details of the life
history of the termite, the essences of which are important for appreciation of the
ecology of A. canicularis.
I spent a period of three weeks, March 6 to 27, 1961, in central Sinaloa, Mxico,
observing the nesting habits of the Orange-fronted Parakeet. The locality of my studies
was approximately 5 miles toward San Ignacio from Coyotitn, which is situated near
the main north-south highway from Nogales to Mazatlfix. The hills in this area are
precipitous, with many rocky.outcroppings. The vegetation is tropical deciduous forest
with thorn-scrub in the more exposed places. In early March, the dry season is about
half over, and the trees are nearly leafless, except in the arroyos. Only a few miles farther
north in these hills, the Orange-fronted Parakeet and the termites previously mentioned
reach their northern limits. Also, the tropical deciduous forest gives way there to arid
thorn-scrub and desert, except along rivers. The transition is an abrupt one, so that
the parrots and termitaria extend commonly to the northern periphery of the deciduous
forest.
DESCRIPTION OF THE TERiIITARIUiI
Before describing the breeding cycle of the parakeet, it is important to have some
idea of the termite colony. Information is taken in part from Von Hagen's work and
in part from personal observation. According to Von Hagen, E. nigriccps has social
castes; there is a queen, many workers, worker-soldiers, and soldiers, besides larval
stages. The termitarium is called a "hallo" by the Mexican natives and hereinafter is
often referred to as such; it is constructed of agglutinated feces and wood debris formed
into concentric ligneous layers. A mature hallo resembles a wasps' nest, being roughly
globular in shape and attached to a limb or trunk of a tree, or rarely to a rock. The
frontispiece shows a hallo, containing a nest cavity of a parrot. The outer portions of
the mass of a hallo are relatively hard, the inner layers more humid and friable. The
color of the substance is dark brown. The matrix is completely traversed by a system
of tortuous canals which interconnect and lead to the central chambers where the queen
remains and the eggs and larvae are cared for.
The entire structure is covered by a "wood paste wrapper," as Von Hagen terms it.
This wrapper is maintained by the termites. No canals open in its surface, and breaks
are quickly repaired by the workers. Its color is a light or medium sandy brown. If a
hole is made in the wrapper, the termites swarm out. The insects are normally not
visible diurnally at the colony, unless they are stimulated to repair the wrapper.
So far as is known, the parakeets never utilize deserted ballos for nesting. Ballos
not in use become dry and crumble, the wrappers fall away, and the substance, si.nce
it is dry, becomes much more difficult to dig into without resulting disintegration of
the hallo.
THE NESTING SEASON
At northern latitudes, the breeding season of the Orange-fronted Parakeet probably
commences in February. Lamb (Mexican Check-list, Pac. Coast Avif., 1954) col-
lected two specimens (now in the Moore collection, Occidental College) near San
Ignacio, SinalGa, in mid-March, 1934; these birds were in breeding condition. One
contained an egg in the oviduct. The beaks of both of these birds bore brownish particles
indicating that the parakeets had been excavating a termitarium.
Although the height of the nesting season is in the first half of March, 15 to 20
fully-fledged young were brought to my camp on March 26, proving the commencement
of nesting by early February. These captive young had been obtained farther into the
foothills by men who were taking them to the market places. At the locality of my own
studies, I observed no young leaving or briefly out of the nest at this same time.
Yet I found one nest being dug, one with an egg, and one with young. The season,
thus, may have been somewhat retarded in comparison to the locality farther inland.
EPIGAMIC BEHAVIOR
AS previously discussed, no obvious behavioral method of pair formation or of com-
petition for mates was seen in captive parakeets. Therefore, I expected that in early
spring in the wild I might be able to discover some evidence of pair formation activity.
But this was not the case in Sinaloa. Because such behavior had not been observed in
the confines of aviaries, it was suspected that the' normal behavior might involve flight
display inhibited by cages.
My observations of flight display involving 3 or 4 Lilac-crowned Parrots (Amazona
finsckii) and Red-crowned Parrots further contributed to my prediction that a flight
display occurred in pair formation in Aratinga canicularis. On several occasions I did
note what seemed to be brief "chases" involving 3 or 4 parakeets, but they were of
such short duration and seen so few times that I doubt their importance in pairing.
Pair formation, then, is probably a very subtle product of social interaction in the
flocks that form in late summer, involving no special flight or other display. This
hypothesis is supported by the fact that birds which I purchased in market places of
M4xico in July, 1959, soon paired, even in the tiny cages in which I transported them,
and despite the fact that they had not been members of a natural flock preceding their
initial capture. The birds were, in fact, mostly young-of-the-year. Pairing in these cases
took place while displays and postures occurred that I have described in the first part
of this paper. My observations, thus, indicate that pair formation is like that described
by Dilger ( 1960: 667 ) for A gapornis.
GENERAL SOCIAL BEHAVIOR IN THE NESTING SEASON
Orange-fronted Parakeets are less social in the breeding season than at other times
of year. Although Dickey and van Rossem (1938:205) report two or three pairs of par-
akeets nesting in one ballo, this habit is apparently rare and was not observed by me in
Sinaloa. There, it may be due to the fact that most ballos are simply not large enough
to accommodate two normal-sized nest cavities. Pairs in Sinaloa remained apart while
engaged in breeding activities, but more often than not joined their fellows to form
small flocks of 4 to 8 birds to feed at frequent intervals in the day. Often while a pair
of birds frequented their nest location, other parakeets fed or rested not far away and
could be heard chattering. The pair upon leaving its nest usually flew directly to these
other birds.
Although other parakeets were aware of nest locations, I did not observe any birds
except the owners nearer than several hundred feet to the nest sites.
NEST BUILDING IN THE WILD
Captive Orahge-fronted Parakeets, as a rule, do not breed until they are two years
old. In the wild, a small number of birds that consistently frequented the vicinity of
my camp were possibly not breeding birds, although it is also possible that they had
completed breeding. These birds were usually present in certain food trees and always
flew about together, indicating no intermittent breeding duties. Some birds in these flocks
did, however, seem paired. I collected one of these pairs with a single shot on March 8.
Their gonads were slightly enlarged (testes 8 mm. in length; largest ovum 3 mm. in
diameter).
Positive information on the division of duties in the nesting cycle are available for
captive birds in the San Diego Zoo through Mr. K. C. Lint, from my observations in
the wild, where sexes were only tentatively determined, and from observations of breed-
ing of a pair in my aviary in the spring of 1962.
Conclusions concerning excavation of the nest are based on observations at a single
nest in the wild and on activities at three nests in my aviary. Both members of the pair
participate in excavation, although the male performs most or all of the work until
completion of the entrance tunnel and the commencement of digging of the nest cham-
ber proper. In the wild, I ascertained only that one bird (sex unknown) did most of
the digging of the tunnel. In the captives, one heterosexual pair excavated in two sim-
ulated termitaria, and one homosexual pair excavated only the tunnel portion of a third.
In the captive pairs,the individual consistently in the behavioral role of the male exca-
vated the tunnel. In the wild pair, on the estimated second day of digging, one bird was
digging at the time of my arrival and continued to do so for over an hour (9:00 to
slightly after 10:00 a.m., March 7). The birds remained together constantly; while
one dug, the other sat close by, sometimes clinging to the side of the ballo, sometimes
perching on a limb nearby. The parrots dig only with their bills. The process does not
involve much movement of the body or head of the bird, so that from a distance a dig-
ding bird seems merely to be clinging and perhaps feeding on the ballo. The motion
of excavation is the biting and chewing a person so often sees in the captives as the
birds mutilate the framework of the aviary.
Although usually the parrots are quiet in the vicinity of the nest, they occasionally
engage in conversational exchange and less often in harsh screaming. A loud harsh
chatter also usually accompanies flight to the nest, but all vocalizations cease on appear-
ance of an observer or predator, although excavation may continue normally.
Pairs excavate periodically throughout the day, for several minutes to an hour or
slightly more at a time. In these periods they frequently stop to preen or merely sit
silently. Courtship activity when the tunnel is being dug usually includes some mutual
preening and rarely courtship feeding which was observed only once at the nest in the
wild. On March 8, the following sequence of activity occurred between 8:51 and 11:15
a.m., in the wild pair.
8:$1. Bird clings to entrance, the other on limb nearby.
9:00. Warning calls from digger who flies up beside its mate. Both call harshly (a series of regular
squawks), then fly away.
9:30. Pair Yeturns but perches down canyon with two others.
9:40. All fly away.
9:42. Pair returns to nest and stares at me.
9:43. One to limb of tree nearby, other to dig.
10:17. Birds switch places.
10:30. Switch again. Outside bird sits fluffed and yawns.
11:00. No change.
11:15. End observation, with bird that began digging at 10:30 inside tunnel, sometimes out of sight.
In the captive pairs, the males performed all digging until a bird could enter the
tunnel and was out of sight; thereafter the females spent a few minutes (compared to
several hours for males) per day in excavation, usually relieving their mates for a short
period. In the wild, excavation from the outside is begun low on the side of the ballo
and is directed first upward at an angle for from eight inches to a foot. When the friable
central part of the ballo is reached, the birds veer downward in making the actual nest
cavity, which when completed is roughly spherical and is about 10 inches in diameter.
The size and shape of the cavity and the tunnel vary, of course, with the size, shape,
and placement oœ the ballo on a limb.
I have previously mentioned that breaks in the wood paste wrapper of the ballo
stimulate the photodermatic senses of the resident termites, causing workers and sol-
diers immediately to move to the break and begin repairs. The termites are obviously
stimulated to repair the excavations made by the parakeets at first. The birds seem to be
only mildly irritated by the insects, which they shake off with rapid head-waggling
motion as they dig. Later, the insects resort instead to sealing off canals leading into
the tunnel and cavity. The passage of the tunnel from a downwardly facing entrance
upward at an angle probably causes as little light as possible to be shed on the broken
tunnelway made by the parrots. Thus, as Von Hagen pointed out, the termites are not
so greatly stimulated to fill in the tunnel as they might be if the break or tunnel were on
the upper side of the ballo, where exposure to direct rays of the sun would be possible.
In addition, the relationship of the passage way to the nest cavity makes it difficult for
any but the most highly adapted and persistent of predators to reach the eggs or young
without exposure to the added irritation of the swarming termites that become active
when the ballo is broken.
! suspect that old but suitable nest cavities are often reused, because it seems to me
that the supply of termitaria would otherwise be depleted rapidly. The pair in captivity
readily accepted a nest cavity already excavated. According to Von Hagen, and my own
personal observations, once a parakeet nest cavity is dug, the termites never fill it up.
The pair of birds that ! discovered in the wild had excavated by March 8 far enough
for a bird completely to enter the tunnel. Although in three days the work seemed
nearly half finished, they continued to visit the nest and seemingly continued to dig
until March 14. After March 14, however, their visits became sporadic and brief; I
did not find them digging again or entering the tunnel. However, ! did discover on
March 19, that the pair were returning to roost in the nest. Their lack of attentivehess
to the nest in diurnal hours indicated that egg laying had not commenced. The birds
apparently roosted in the nest cavity from at least March 19 until shortly before my
departure from the study area. On the evening of March 25, ! collected the pair and
found them on the verge of reproductive activity: the female's ovary contained a nearly
full-sized ovum about ready to rupture from its follicle; the male's testes measured
8 by i0 min. Dissection of the ballo the following day showed the nest cavity complete.
Perhaps such delay in laying is characteristic of the species. If it is, future investiga-
tions should explore the possibility, or perhaps the probability, that the delay allows
the termite population to adjust to the cavity by first evacuating it completely and
then sealing off canals leading into these chambers. Perhaps only then can the birds
nest satisfactorily.
NEST BUILDING IN THE AVIARY
Captive parakeets were provided with three simulated termitaria in the spring of
1962. Each of these was satisfactory in certain respects. First, on January 25, the birds
were offered a ballo made of styrafoam plastic, a white, granular material, which I had
coated with a thin layer of brown vegetable dye to encourage the birds to begin exca-
vation more eadily. This brown layer was removed by the birds, revealing the unnatural
white coloration of the plastic. The potential breeding pair of parakeets and several
other birds participated in this generalized digging, and the pair began to fashion a
tunnel vertically upward against the back foundation board to which the ballo was
glued. They thereby used the board much as parakeets in the wild use a limb to which
the termitarium is attached, namely as a structural frame which might prevent the
widening of the entrance by a predator.
At about the time the nest chamber proper was commenced, the male's pattern of
excavation seemed to disintegrate, and he thereafter widened the entrance, so that it was
nearly as wide as long. I attribute this breakdown in digging action to the white color-
Fig. 7. Cork termitarium with entrance, tunnel, and cavity already
fashioned, and removable lid constructed. Parakeets laid two
clutches of eggs herein in the aviary.
ation of the plastic, the light reflecting and transmitting properties of which prevented
the birds from creating a dark nest chamber merely by digging deep into the ballo.
At this time, February 23, I supplied the birds with a ballo made of thick, spongy
cork which was soft, dark brown, and easily chewable (fig. 7). The potential breeding
pair immediately abandoned all interest in the plastic ballo and, along with a homo-
sexual female pair, began excavation in the cork. On March 14, I decided to bypass
further excavation studies. because competition between the two pairs was severe; the
homosexual pair had dominated the potential breeders and the "male" of this pair had
completed a tunnel about 10 inches into the cork.
I then removed the homosexual pair and replaced the deserted plastic ballo with a
new cork one, this time with a nest cavity and tunnel already fashioned. This second
cork ballo was immediately accepted by the potential breeding pair, which began to
enter the chamber and investigate it periodically in daylight hours. Beginning on
March 15, the birds habitually spent from a few minutes to an hour or more in the ballo
several times a day. The male, as during excavation, continued to initiate all activity
at the nest. entering and leaving first and being the only bird to sit inside alone. While
inside, the birds excavated the chamber, removing the back cork wall as far as the foun-
dation board in the first week. Particles freed, in this reshaping of the chamber, were
periodically scooped out the entrance, but enough of them were left in the chamber
floor to make it two or three inches shallower and flatter than such chambers are in
the wild.
By March 20, the nesting pair was roosting in the chamber, and, as in the wild,
commencement of roosting closely correlated with the disappearance of the sun (see
later discussion). The male continued to lead the way in activities at the nest until
March 27, when the female was first noted entering the nest followed by her mate.
Thereafter the female tended to lead the way to and from the nest and frequently she
sat inside .without her mate. Abortive attempts at copulation were also noted on March
27, two days before the first egg was discovered in the nest.
It is to be noted that the captive pair did not show a period of inactivity at the nest
chamber as had the pair in the wild. The lack of termites in the simulated ballo may
have made the nest chamber immediately suitable for use by the birds.
CORRELATION OF HABITS WITH TYPE OF NEST CAVITY
Most species of birds that dig their own nest cavities make them large enough barely
to accommodate only one adult and the eggs or young. This is the case in some parrots,
such as Amazona finsckii; these cavities are occasionally so small that it is difficult to
believe that an adult bird could incubate the eggs or brood the young therein. However,
A ratinga canicularis builds a large cavity, about 10 inches in diameter; this is correlated
with the facts that (1) the matrix is soft, allowing easy excavation without undue ex-
penditure of energy and (2) the members of the pair perform most of their duties at the
nest simultaneously. As mentioned, the pair is present when the nest is excavated, and
both roost in it as soon as it is large enough or otherwise suitable; later both birds
continue to roost in the cavity throughout the nesting period and visit the nest together
in bringing food to the young.
FLIGHT DISPLAY AND DUETING"
In the period between digging of the nest and laying of the eggs, the pair observed
in this phase in the wild several times made hovering unison flights to the nest from
trees 50 to 100 feet away. Rarely such flights were from tree to tree merely in the vicin-
ity of the nest. Such flights were accompanied by a chattering vocalization that was not
so harsh in quality as alarm calls but resembled instead the melodious assembly calls
given in a simultaneous, stylized fashion by both members of the pair.
In addition, the pair occasionally perched in the vicinity of the nest site to engage in
mutual attentiveness. At these times, the unison chattering vocalization became, it
seemed to me, a more cooperatively unison effort, that may be called "dueting." I have
previously mentioned the alternate-syllable dueting of pairs of Brotogeris. Dueting in
flight has been absent in my captive Aratinga, although occasionally birds duet as they
perch on or near the nest.
COPULATION
I have not observed copulation in this species in the wild. The captive pair which
had begun use of the cork termitarium in the aviary were seen in strong but unsuccess-
ful attempts at copulation several times on March 27, shortly before the first egg was
discovered. Apparently successful copulation was observed on March 31 at 4:48 p.m.,
when the clutch contained two eggs. The many abortive attempts at copulation were
accompanied by much bill-wiping, courtship feeding, vigorous preening of the male by
the female, and the clawing attempts to mount previously mentioned.
Behavior preceding successful copulation was as follows: the pair emerged from the
nest at 4:35 p.m. They indulged in mutual preening, after which the male fluffed, perch-
bit, raised the head, crane-peered, and made several futile attempts to mount (clawing).
He then head-bobbed several times, performed courtship feeding, and when the female
fluffed and crouched in receptive posture, with tail elevated and head slightly raised,
he again attempted to mount. Both birds fluffed strongly just previous to this mounting
attempt. This time copulation seemingly was performed. In it, the male does not com-
pletely climb upon the female but is about half on her back, half perched beside her.
Nevertheless, cloacal contact is achieved. The act lasted approximately one minute and
thirty seconds. Courtship feeding occurred once in this time. No vocalization accom-
panied the act. Other birds in the flock were at rest during this time and exhibited no
reaction to the behavior of the pair. The pair engaged in no special behavior following
copulation but joined their fellows to rest and feed. The female re-entered the nest at
5:30 p.m., her mate joining her at 5:40 p.m.
Copulation as observed in this one pair of the Orange-fronted Parakeets resembles
copulatory behavior in Agapornis (Dilger, 1960:677-678) as follows: female solicita-
tion is similar in that the wings are not quivered, and in strong solicitation the head
and wings are raised slightly above the horizontal; the male mounts by stepping on the
female with one foot (two in Agapornis), rather than flying to the position; no vocal-
izations accompany solicitation or copulation. However, to contrast behavior in the
two, in achieving cloacal contact during prolonged copulation, the male Orange-fronted
Parakeet does not switch from side to side of the female as does the male of Agapornis;
no wing raising occurs in Aratinga in solicitation; mounting is incomplete; and no wing
flapping accompanies copulation.
Since copulation has been observed only once in Aratinga canicularis, the foregoing
comparison of the act in the two genera is, of course, tentative. However, the normally
stereotyped pattern of such behavior makes the comparison of some value.
LAYING
I made no observations concerning laying in the wild. In the two clutches laid in the
aviary (both by the same pair in spring, 1962), eggs were seemingly laid every other
day; it is possible that they may on occasion be laid at three-day intervals. In one
instance such an interval was noted, although an egg could have been laid after the
check of the nest on the second day. Time of day of laying has not been determined.
Laying of each clutch spanned approximately eight days.
INCUBATION
Only the late phases of incubation were observed in the wild. The entire incubation
period of the captive pair was studied. Incubation begins with the first egg, after the
laying of which the incubation patch of the female is immediately discernible when she
leaves the nest to feed and rest. Growth and age differences in young birds of the same
brood in the wild also indicate commencement of incubation with the laying of the first
egg. Both in the wild and in captivity, seemingly only the female incubates. The male
develops no brood patch; the male when in the nest chamber seems always to occupy
a position at the end of the tunnel.
As has been stated, both male and female previous to laying spend frequent periods
in the day sitting in the nest chamber. Nine hourly checks of the aviary on March 26
revealed that the pair was inside the nest four times and out of the nest five times. Thus
the birds spent slightly less than half their time in the nest chamber in the week pre-
ceding laying. The pair was observed continuously over a 12- to 13-hour period once
a week beginning with Saturday, March 31, when there were two eggs of the first clutch
in the nest. Figure 8 summarizes per cent of attentivehess of the adults on four succes-
sive Saturdays in the incubation period. The time spent by the female in the nest rose
from approximately 50 per cent at the beginning to around 90 per cent at the end of
two weeks. The male, which was attentive to his mate, spent about one-half of his time
in the nest in this period. When he was out of the chamber, the male divided his time
about equally between occupying a guard perch three feet from the nest, feeding the
female, and engaging in such activities as preening, chewing on twigs, and resting. In
'øø t
80
70-
60-
50 -
40-
20
]0t2 eggs
O[ [ I'[ 11 I ] I [ t [ill ill!
$1 7 14 21
March April
DAYS
Frst ej hatches
I I [ I I [ I I [
Fig. 8. Graph depicting per cent of attentiveness of male and female
captive parakeets during incubation of first clutch.
Vol. 65
contrast to the prelaying period, the male spends no time in the nest when the female
is not inside. When the female is out of the nest, she typically feeds and rests briefly,
although in early morning and late afternoon hours she may preen, engage in mutual
attentiveness with the male, indulge in twig-chewing, or dig in another "termitarium"
in the aviary. Table 1 provides information on lengths of periods in the nest for both
male and female.
The only observations made on the incubation period in the wild occurred at one
nest during the last two days of incubation. Since the duties of the male were at vari-
ance with those of the captive male, a summary of those observations in the wild is
important. In the wild pair, the female was more sparingly attended by her mate than
was the female in the captive pair. The wild male roosted in the cavity but diurnally
accompanied his mate only when she left the chamber to feed at intervals of from two
to three hours, sometimes longer. This male usually remained perched in a nearby tree
as the female incubated, but on occasion he stationed himself farther away, out of the
observer's sight but not out of audible range of his mate. When she grew restless, she
called, using the intra-pair signal chee ckee! or chee chee chew! Thereupon, the male
either answered and flew to a nearby tree to await her exit or chased after her as she
erupted from the entrance to the nest in strong flight.
On the day preceding hatching in this nest, the female was observed to remain in
the chamber for a period of two hours, from 10:00 a.m. to 12:00 noon, during which
time her mate did not appear. On the same day, she flushed from the nest twice and each
time returned minutes later with her mate. However, on the succeeding day, when I
approached the nest at 2:00 p.m., I noted an eggshell on the ground below the nest,
and both birds flushed from the ballo.
With a small mirror device I examined this nest and could see only a single young,
just hatched, and no eggs. In another nest there were two half-grown nestlings. The
TABLE 1
TIME SPENT I1 NEST BY CAPTIVE MALE AND FEMALE ORANGE-FRONTED
PARAKEETS DURING INCUBATION OF FIRST CLUTCH
March 30 March 31 April 7 April 14 April 21
Male Female Male Female Male Female Male Female Male Female
Minutes in nest
during a complete
attentive period
Average time in
nest (hrs. and
minutes)
April 28
Male Female
80 85
60 18 58 125
40 50 80 138 37 40 268
41 110 95 45 102 100 45
95 110 38 163 47 100 92
90 80 20 78 88 45 65 10 145 15 13
20 20 10 10 130 110 45 35 80 205 65 18
:55 :55 :41 1:01 1:06 1:32 :55 :42 1:20 2:55 1:03 1:40
contents of still another which were brought to me consisted of three young. These were
seemingly the full complements in each of these nests. Mr. Lint of the San Diego Zoo
states that three to five eggs is the usual clutch size in captives of this species. The eggs
are plain white and measure 2.67 x 2.03 (average of three); they are short subellip-
tical in shape (see Preston, 1953:166). The length of the incubation period is approxi-
mately 26 days - 1 day, as determined from my captive pair.
CARE OF THE YOUNG
In the first days of care of young in the wild, brooding is frequent and apparently
performed only by the female. As during incubation, the male awaits his mate but more
often perches outside near the nest site rather than leaving the area as he did during
incubation. If the female remained in the nest cavity for more than five minutes, how-
ever, the male often flew farther away and then made periodic visits to the nest to perch
in the vicinity for from a few moments to approximately 10 minutes.
The single egg in the nest mentioned on page 183 hatched about noon of March 23.
By March 25, the male had begun to enter the nest cavity and remain in it as long as
35 minutes, which is normal for both members of the pair on most visits to the nest
later in the care of young.
Following is an outline of events at the nest soon after the egg hatched:
2:00 p.m. Both adults flew at my arrival, flushing from the nest. Examination reveals one young.
3:00 Adults return, one to tree, the other to nest and in after brief hesitation and conversa-
3:07
3:42
4:05
5:Ol
5:30
5:40
tional notes between birds.
Other adult (presumably the male) flies away.
Bird brooding (?) out and away.
Both adults return, one to tree, one to nest, then almost immediately both depart.
Adults return; one in at g:0g; other leaves.
Second adult back.
Second adult in.
9:45 a.m.
10:54
10:55
11:00
11:15
ß 11:16
11:20
11:55
12:45 p.m.
On March 25, the following sequence occurred:
One adult inside.
Gives chee chee social call. Immediately, male (?) answers down the hill.
Adult flies past nest and lands in nearby tree.
Bird inside goes out and leaves screaming, followed by mate.
Both back to tree. There they converse.
One bird to nest and in.
Second bird in. They both call chee chee and then are quiet.
Both birds out and leave.
End of observation period, neither adult present.
Care of the young when they are from two to three weeks of age was studied at one
nest, from March 12 through March 24. Figures 9 and 10 depict artentireness at this
nest at that time. Although my time was necessarily divided among several duties con-
nected with this study, an attempt was made at this nest to include observations over
most of the range of diurnal activity of the birds. From the two figures it may be seen
that there are probably three to five visits to the nest by the adults each day. The
MARCH
9:15 9:16 9:::50 9:31 9:45
MARCH 16
9:00 9:$5
I0:00
Feedin is of
9:45 9:58 IO:01 I0:05 10:14
9:00 IO:00
i I
KEY:'
I BOTH PARENTS IN NEST CAVITY
ONE PARENT INSIDE, THE OTHER OUTSIDE
ONE PARENT PRESENT, THE OTHER ABSENT
BOTH PARENTS OUTSIDE
BOTH PARENTS ABSENT
All times ere A.M.
[
10:55
MARCH 24
MARCH 20"
Feeding cells ofyoung
11:30 11:$5 II
IhO0
I
12:00
I
Remained absent throurh 12:15
(end of observation period)
Fig. 9. Record of attentivehess at nest of Orange-fronted Parakeet in morning hours during care
of young in wild. Total minutes of observation: 385; minutes both adults were near or in
the nest: 215; minutes both adults were absent from nest: 170.
parents usually arrive and depart together, or nearly so. Sometimes they enter together,
but more often one enters, feeds, and remains while the other enters after one to five
minutes. Following this, there is a period of quiet, when both adults occupy the cavity
with the young. This period may last from less than ten minutes to more than two
hours. Periods away from the nest are similarly long.
Seemingly, only particulate matter in liquid, regurgitable form is fed to the nestlings.
Foods included at this time of year, as evidenced by my observations of the adults
feeding in the area, included small fleshy fruits of unidentified trees and flowers of a
scandent shrub, Combreturn farinasurn (family Terminaliaceae), which was in full
bloom during my stay in Sinaloa. Combreturn was especially attractive to the parakeets,
as well as to other birds such as Magpie-jays (Calocitta), Whitemecked Robins (Tur-
dus assirnilis), and Scarlet-headed Orioles (Icterus pustulatus). The flowers of this
woody vine are bright orange and full of nectar. The flower parts are fleshy and when
pressed between the fingers assume a gummy consistency. This sticky quality resulted
12:30 12:40
MARCH 19
Feeding coils of
12:55 h 1:36 1:37 159 2'11
I
145
2:00 1.100 2:00
MARCH 13
2:30 245
5'50
1
MARCH ZZ
4:00
(1/2onfmued below!
MARCH 22
Observer absent
4:00 4:30
MARCH I?
600 6.15 6:24.6.50 6:40
5:45 555 555 5:56 557 6,15 6,8 6.20 6:30
4'00 5:100 6 O0 ?,0(
KEY:
I BOTH PARENTS IN NEST CAVITY
ONE PARENT INSIDE, THE OTHER OUTSDE
ONE PARENT PRESENT, THE OTHER ABSENT
BOTH PARENTS OUTSIDE
BOTH PARENTS ABSENT
All times ore
Fig. 10. Record of attentiveness at nest of Orange-fronted Parakeet (same nest as in fig. 9)
in afternoon and evening hours during care of young in wild. Total minutes of observa-
tion: 720; minutes adults were near or in the nest: 226; minutes adults were absent from
the nest: 494.
in orange-stained feathers around the bills of the birds. From the frequency with which
I observed the parakeets feeding on the flowers and from the succulent character of the
blossoms, I suspect that they were an important constituent of the liquid food given
to young parakeets. Several especially heavy concentrations of these flowers in treetops
in the study area were almost never without a small flock of parakeets feeding on them.
I mashed Combreturn flower parts into a weak milk solution, to which they imparted
a faint orange tone, and fed the substance to captive young parakeets; they seemed
to relish it.
Although the concealed situation of nests prevented me from observing activities in
the chambers, it appears from knowledge of other parakeets that the manner of feeding
of the young by the adults is as follows: the adult grasps, with its own bill, the upper
mandible of the young bird, the holding points being roughly either side of the upper
mandible near the commissure of the gape. Such action by the adult triggers an imme-
diate gaping response and a vocalization, which written phonetically is ya ya ya ya
yayayayaya given with a nasal rasping quality. In captive young parakeets, the vocal-
ization always accompanied gaping and was not given otherwise. Gaping by captives
was elicited by the gentle placement of thumb and finger on either side of the base of
the mandible while simultaneously projecting a weak stream of fluid into the bird's
gullet using an eyedropper. Apparently this artificial feeding process resembled the
natural feeding method. No amount of poking with the eyedropper at the bill of a young
bird evoked any gaping response, unless such poking became vigorous enough that a
defensive gape was provoked. I assume that each time I heard the feeding vocalization
in the nest cavity regurgitant was being transmitted to the young, and I further assume
that the mechanics of the process are as I have described because of the nature of the
courtship feeding ritual described earlier in this paper.
Only the first egg hatched in the first clutch laid in the aviary'. Of the other three
eggs cff this clutch, two were fertile; the three unhatched eggs were removed from the
nest approximately 35 days after they were laid and after the female had ceased incu-
bating them. The two dead embryos measured 8 and 13 mm. in total length, respectively,
compared to 45 mm. for the nestling at an age of two days. The embryos must have
died previous to the hatching of the first egg, considering their developmental stage.
The larger was comparable to a six or seven day old chick embryo in appearance.
The single young that hatched survived into the third day but then died. It appar-
ently had not been fed.
DEVELOPMENT OF THE YOUNG
At hatching, the young are sparsely downy, the down being of a wispy, fine character
and whitish in color. Dilger (1960:651) reported a second coat of down replacing the
natal one soon after hatching in Agapornis. I detected no such down in Aratinga canicu-
laris, in young of one to 12 days of age. Instead, the juvenal plumage begins to emerge
at the latter age. In one specimen about 12 days old the feet are anisodactyl. Dilger
(1960:652) depicts all ages of young Agapornis as zygodactyl. I have discovered no
other information as to the condition of the foot in other species of parrots.
Juveniles may be distinguished from adults in Aratinga canicularis by their dark
brown irides in comparison to the yellow irides of mature birds. It is not known when
the change in color occurs, but birds about ready to leave the nest retain brown irides.
I have no information on postjuvenal molt in the wild, but juveniles obtained by me in
.July molted in captivity during August and September. These juveniles had been clipped
prior to purchase, and I therefore plucked their remiges shortly after acquisition. The
August-September molt involved the entire body and took place while the birds were
acquiring new remiges. In normal postjuvenal molt, probably the juvenal remiges are
not replaced.
According to Lint young remain in the nest in captivity until they are approximately
six weeks of age. No other information is available on the length of this period.
PAIR BOND MAINTENANCE
Although frequent mutual attentiveness exists prior to hatching of the eggs, I
observed no indication of courtship feeding, mutual preening, or other maintenance
activity while the young were being cared for in the wild. However, I was unable to
follow the activities of the adults when they were away from the vicinity of the nest;
therefore, such behavior may occur at this time in the breeding cycle.
The strength of the pair bond may be maintained merely by the attentiveness of
the adults. In species such as the Blue Jay (Cyanocitta cristata), for example, in which
the role of the male in actual duties of nest, egg, and nestling care are less than those of
the female, evidences of courtship manifest themselves throughout the nesting period,
serving to enforce the bond of the male to the events of the reproductive cycle sub-
sequent to the initiation of nest building. In the Orange-fronted Parakeet, such traces
of epigamy, once nidification has begun, would seem unnecessary and soon replaced, as
previously mentioned, by (1) nearly constant association of the adults, (2) equality of
duties in care of the young, and (3) roosting of adults in the nest cavity from its com-
pletion to the departure of the young from the nest.
ROOSTING BEHAVIOR
On each occasion that I observed the adults of nest N-2 going to roost, their retire-
ment at from 6:18 to 6:30 p.m. was closely associated with the time the sun dis-
appeared below the horizon from the viewpoint of the nest of the birds. At two other
nests, both with higher western horizons from the viewpoint of the nest locality, a
similar correlation with disappearance of the sun was noted. At nest N-l, located in
a ravine and with the nest entrance pointed downward toward the south, the adults
arrived shortly after 5:00 p.m., perched near the nest by 5:25, and on the two occasions
recorded went to roost by 5:30, about the time the sun disappeared. At nest N-5,
roosting time was observed only once and was correlated with disappearance of the
sun at about 5:10.
The two captive parakeets using the nest chamber at night also began roosting in
correlation with disappearance of the sun on clear days, but entered the nest cavity
on overcast days as much as 45 minutes prior to that time, depending on the heaviness
of the cloud cover. Thus, it seems that initiation of roosting may be dependent upon
light intensity. In the wild, weather conditions during the nesting season rarely include
cloud cover in the evening hours.
After the birds retired there usually ensued a short period of from one to five
minutes of Conversational chatter, but there was no vocal response to the calls of other
birds outside.
Contrary to the situation in the evening, the parakeets began activities in the morn-
ing before the sun appeared, although they did not become very active in their move-
ments until full daylight prevailed in the ravine between 7:30 and 8:00 a.m.
SPACING OF NESTS
Dickey and van Rossem (1938: 205) reported, as previously mentioned, the occa~
sional utilization of a termite nest by two pairs of parakeets simultaneously in E1 Salva-
dor. In Sinaloa, each of the three active nests discovered were single, while each of
an additional five termitaria contained a single parakeet excavation. Characteristically,
active termitaria were rather widely spaced through the woodland, no two being
closer together than approximately 1000 feet in a direct line. Thus, the parakeet nests
were of necessity not found in close proximity to each other. Most ballos having a
diameter of one foot or more contained excavations made by parakeets. However, these
included mostly old diggings not in use by the birds. I discovered 10 termitaria that
were active and large enough to accommodate the parakeets, within the study area;
of these termitaria, eight had been excavated and four had active parakeet nests. The
two mentioned previously that were approximately 1000 feet apart were in two different
ravines. Approximately equidistant between them was a well-excavated inactive nest,
apparently available for use. Seemingly, there is no tendency for the birds to place
their nests close together if adequate nesting sites and space permit otherwise.
Correlated with placement of nests, the individual pairs do not associate near
the nest sites or show any inquisitiveness about each other's nests. Away from the
nest, the pairs associate as freely as they do in the nonbreeding season.
FLOCK BALANCE AND BREEDING IN CAPTIVES
Aviculturists generally believe that in order to obtain breeding results in Aratinfa
canicularis in the aviary, one must isolate the potential breeding pair in an aviary six
to eight feet wide by about 24 feet long. Moreover, breeding may not occur even then
until the birds have been allowed to grow accustomed to their surroundings for two
or three years. When attempts have been made to breed the species in aviaries con-
taining many individuals, competition for nest sites, diversion of attentiveness of the
breeders by nonbreeding social activities, and general crowding have apparently inhib-
ited reproductive behavior.
In the present study, although young have not, at this writing, been successfully
reared by captive pairs, the factors just listed which possibly contribute to failure
have largely been eliminated or shown to be unimportant.
My single breeding pair has nested in an aviary 6 by 16 feet in the presence of
12 other birds of the species. Of these 12, 9 ar..e of a different race (A. c. eburnirostrum);
these birds are comparatively wild, poorly adjusted to captivity, and, perhaps as a
result, socially subordinate to other birds in the cage. The three individuals in the
aviary of the same race as the breeders (A. c. anicularis) are relatively tame, all
females, and all with a past history of subordinance to the breeders. Thus, a social
situation similar to that found in nature has been achieved: the breeders, chiefly the
male, have no trouble defending the nest site, competing for food, or, at intervals
during the day, consorting with others of their kind in nonbreeding, noncompetitive
social activities. As a probable result, even though these birds were placed in the aviary
as recently as January, 1962, they have become immediately adjusted and have com-
menced prenesting activities that have continued to this writing (May, 1962), at which
time a second clutch of eggs is being laid.
RELATIONSHIPS WITH OTHER ANIMALS
The Orange-fronted Parakeet associates with no other species of birds as is fre-
quently true in other kinds of parrots. Regarding predators, Beebe (1905:181) observed
a flock of these parakeets sitting in a treetop and suddenly being attacked by a falcon;
although one of their number was taken, the remainder of the flock sat still and quiet,
as if they had not perceived the attack at all. My own observations with captive birds
reveal that these parakeets have no fear of life-like mounts of a Long-eared Owl (Asio
otus) or a Sharp-shinned Hawk (Accipter striatus). The parrots actually climbed on
these mounts and chewed on them as they do with other inanimate, but chewable,
objects. However, parakeets in the wild in Sinaloa often reacted to a hawk overhead with
nervous muttering (low intensity alerting signal) and then loud screams (high intensity
alarm cries) and flight when the raptor drew nearer. I observed a Gray Hawk (Buteo
nitidus) sailing about up high with a parakeet clutched in its talons; other parrots
of this and other species were excited by this and flew about screaming. I observed no
predation or evidence of it at the nests of the parakeets. I assume that snakes might
be successful predators on the nest contents, but probably most other potential preda-
tors, for example, small mammals, would be discouraged or thwarted in attempts to
enter the nest by the termite swarms that occur when the termitarium is broken.
SUMMARY
Orange-fronted Parakeets (Aratinga canicularis) inhabit tropical deciduous for-
ests of the Pacific slopes of Mxico and central America. Studies reported here were
made of epigamic and nesting behavior of captive birds and of nesting habits in the wild.
Components of courtship feeding display include, among others, bill-wiping, bill-
rubbing, perch-biting, popping, bill-vibrating, bill-snapping, crane-peering, malar-
puffing, pupil-flexing and inflected whistling, all of which precede the act of courtship
feeding, in various combinations. Pupil-flexing display is performed in conjunction
with an ambivalent emotional state at the sudden appearance or rapid approach of
another bird or other creature and serves to divert this approach or to forestall it.
Pupil flexion is evidence of high-intensity, conflicting tendencies frequent in epigamic
context. Actual courtship feeding has several components, including head-up chin-out,
head-bobbing, bill-sparring, bill-grasping, and head-jerking. Head-jerking is the act
of courtship feeding wherein a liquid regurgitant is probably passed from one bird to
the other; the act is homologous to that of feeding the young by the adults. Mutual
preening and associated behavior is regular throughout the year; courtship feeding is
prevalent from midwinter to early summer. Clawing and switch-sidling, regarded here
as precopulatory behavior, are likewise common components only in midwinter to late
spring months.
The vocal repertoire includes annoyance squawks, alarm cries, epigamic calls, ambiv-
alent calls, feeding calls, pair and flock social signals, activity-conversation, and content-
rest calls. Sonagraphic analyses of some of these categories are presented.
Breeding behavior of the species was studied in Sinaloa, Mxico. The range of the
parakeet roughly coincides with that of an arboreal, colonial termite, in the termitaria
of which the parakeets excavate their nest cavities. There is no discrete time of court-
ship display or of pair formation immediately preceding nest building. Pair formation
probably occurs in late summer, and pair bonds are evident throughout the year.
Pairs probably begin nesting in early February, and the peak of the breeding season
occurs in March in Sinaloa. Excavation is accomplished by both members of a pair
and requires approximately one week. A parakeet can enter the nest cavity after three
days of excavation.
For a period of approximately one week following excavation, the pair in the wild
does not visit the nest, possibly allowing the termites to evacuate the nest cavity area
of the termitarium. When nesting begins, pairs remain apart when involved in breed-
ing duties, but they form small flocks when feeding. Courtship behavior accompanies
early phases of nesting but thereafter it decreases sharply.
When the nest cavity is complete, both birds begin to roost inside the nest. Frequent
attempts at successful copulation occur at this time. In the act, the female does not
solicit by quivering the wings but raises the head and tail. The mounting is only partial,
the male placing one foot on the female's back. In the single complete copulatory act
observed in this study, courtship feeding occurred and the act lasted one minute and
thirty seconds.
Clutch sizes in captivity vary from three to five eggs, and complete clutches of one
to three were noted in the wild. The eggs are dull white in color and are laid every other
day. Only the female incubates. The male in the wild enters the nest only to roost and
accompanies his mate when she leaves the nest to feed. The captive male in this study
frequented the nest diurnally in the incubation period.
The incubation period is approximately 30 days. Incubation begins with the first
egg. Upon hatching, the shells may be carried from the nest or left inside it. The male
in the wild now begins to visit the nest and with his mate to feed the young. Only the
female broods. In middle to late stages of care of young, parents leave and return to the
nest together to feed the young. The close association of the members of the pair prob-
ably enforces the pair bond, obviating necessity of courtship-type behavior during
nesting.
The time the young remain in the nest was not determined by me but according
to Lint (personal communication) it is about six weeks in captivity. The young at
hatching are downy, altricial, and anisodactyl. They weigh approximately 2 grams. The
first plumage begins to emerge toward the end of the first week. The young are feath-
ered by approximately the middle of the third week and are then also zygodactyl. The
plumage is identical in pattern and color to that of the adults, but the irides are dark
brown and the circumorbital skin is whitish.
Young parakeets are fed regurgitated food. Flowers of the shrub Combreturn fari-
nosurn are apparently an integral constituent of this regurgitant. Young birds gape
for feeding when each side of the mandibles is grasped and not in response to other
stimuli.
Roosting time of the adults commences at and seems correlated with the disappear-
rance of the sun below the horizon from the viewpoint of the nest site or with com-
parable light intensities on cloudy days.
Nests in the area of study were discovered only in active termite colonies and were
thus never closer to each other than about 1000 feet. Most active termitaria had exca-
vations by parakeets but of ten excavations discovered only four contained active nests.
Orange-fronted Parakeets associate with no other species of bird. Predation by the
Gray Hawk was noted, and it is thought that only snakes could successfully prey on
nest contents.
LITERATURE CITED
Beebe, C. W.
1905. Two bird-lovers in Mexico (Houghton Mifflin Co., Boston and New York).
Dickey, D. R., and van Rossem A. J.
1938. The birds of E1 Salvador. Field Mus. Nat. Hist., Zool. Ser., 23:1-609.
Dilger, W. C.
1960. The comparative ethology of the African parrot genus Agapornls. Zeits. f. Tierpsych.,
17: 649-685.
Lack, D.
1940. Courtship feeding in birds. Auk, 57:169-178.
Morris, D.
1956. The function and causation of courtship ceremonies. In: L'instinct dans le comportement
des animaux et de l'homme, edited by M. Autuori (Masson, Paris).
Pacific Coast Avifauna.
1954. Distributional check-list of the birds of Mexico. Part 1. Pac. Coast Avif. No. 29:1-202.
Preston F. W.
1953. The shapes of birds' eggs. Auk, 70:160-182.
Rochon-Duvigneaud, A.
1950. Les yeux et la vision. In Trait de Zoologie, edited by P. P. Grass (Masson et Cie, Paris),
T. 15:221-242.
Tavistock, the Marquess of
1929. The derbyan parrot (Psittacla derbyana). Ibis. set. 12, 5:562-563.
1931. The nesting of derbyan and Layard's parrakeets. Avic. Mag., set. 4, 9:282-286.
Von Hagen, W.
1938. A contribution to the biology of Nasutitermes (sensu stricto). Proc. Zool. Soc. London,
100:39-49.
Walls, G. L.
1942. The vertebrate eye and its adaptive radiation (Cranbrook Inst. Sci., Michigan).
Moore Laboratory of Zoology, Occidental College, Los Angeles, California, June 4,
1962.