--We describe the physical characteristics and behavioral development on 17 hand-reared and more than 400 parent-reared nestling White Ibises (Eudocimus albus) hatched in 1985 through 1988 at Pumpkinseed Island, a large colony site in coastal South Carolina. Hatchling ibises are covered with a Pale Neutral Gray to Jet Black natal plumage. About 30% of the hatchlings possess a tuft of white feathers on their crown, and this pattern persists throughout the nestling period. Juvenal plumage, which is complete by 60 days, is mainly Vandyke Brown and Blackish Neutral Gray dorsally and creamy white ventrally. The bill, which is straight at hatching, begins to curve downward at about 14 days. Nestling White Ibises exhibit considerable individual variation in bill markings from approximately 10 days of age through fiedging. Increasingly persistent begging vocalizations begin within hours of hatching. Nestlings walk on partially extended legs at eight days of age, pirate food from other nestlings and form creches at 21 days of age, and fledge and join all juvenile and mixed-age feeding flocks at 45-55 days of age. We suggest that the phenotypic variability in plumage, bill coloration, and begging calls we describe enables parental ibises to identify more easily their offspring at the colony site. Received 27 Feb. 1989, accepted 12 Nov. 1989.
Although the plumage and behavioral development of several species
of wading birds has been studied in considerable detail (e.g., Hammerkops
[Scopus umbretta], Wilson et al. 1988; storks, Kahl 1962, 1966; Thomas
1984; herons, Gross 1923; Gavino and Dickerman 1972; Juarez and
Dickerman 1972; Mc Vaugh 1972, 1975; Snow 1974; Merritt 1981), there
are few detailed studies of juvenile ibises. Michelmore and Oliver (1982)
describe the plumage and behavioral development of 10 hand-reared and
a number of parent-reared Northern Bald Ibises (Geronticus eremita)
raised at the Jersey Wildlife Preservation Trust. Rudegeair (1975) de-
scribes interactions between free-ranging nestling White Ibises (Eudoci-
mus albus) and their parents at a colony site in north central Florida.
Kushlan provides information on the behavior of free-ranging White
Ibises in south Florida (Kushlan 1974), as well as information on growth
of body parts of five hand-reared birds (Kushlan 1977a). Beebe (1914)
provides a description of changes in behavior, as well as in plumage and
soft body parts, of two parent-reared White Ibises maintained at the Bronx
Institute of Ecology, Univ. of Georgia, Athens, Georgia 30602.
2 Savannah River Ecology Lab., P.O. Drawer E, Aiken, South Carolina 29802.
3 Dept. Biology, Winthrop College, Rock Hill, South Carolina 29733, and Belle W. Baruch Inst. for
Marine Biology and Coastal Research, Univ. South Carolina, Columbia, South Carolina 29208. (Author
to whom reprint requests should be sent.)
226
De Santo et al. ß NESTLING WHITE IBISES 227
Zoo and a number of nestlings raised by free-ranging adults in the wild.
He also noted variation in bill markings in young ibises. ffrench and
Haverschmidt (1970) outline changes in the plumage and soft parts of
developing nestling Scarlet Ibises (E. ruber), noting that some nestlings
have a "white tuft on the crown." Luthin (1983) compares the appearances
of nestling Bare-faced (Phimosus infuscatus), Green (Mesembrinibis cayen-
nensis), and Scarlet ibises.
White Ibises typically breed in large colonies. Colonies vary consid-
erably in size, but ibises usually nest in the company of at least 10 pairs
of conspecifics, and many colony sites exceed several thousand pairs
(Kushlan 1977b). Nestling ibises are ambulatory at about eight days of
age, and they spend several weeks in large creches at breeding colonies
being fed by adult ibises before becoming independent at six to seven
weeks of age (Rudegeair 1975). Studies of other colonial species where
the young intermingle reveal considerable phenotypic variability in nest-
ling plumage and voice, presumably in response to selection for parental
recognition of offspring (cf. Buckley and Buckley 1970, Berry 1975, Stod-
dard and Beecher 1983). Here we: (1) detail extensive observations of 17
hand-reared captive White Ibises together with incidental observations
of more than 400 parent-reared nestlings, (2) compare development in
White Ibises with that of other species of wading birds, and (3) discuss
our observations of phenotypic variability among nestlings in terms of
selection for parental recognition.
MATERIALS AND METHODS
Seventeen 8- to 72-h-old newly hatched White Ibises were taken from a large breeding
colony on Pumpkinseed Island in Winyah Bay, Georgetown County, South Carolina, in
July 1986 (eight young from eight nests) and 1987 (nine young from six nests). (See Frederick
1987 for a description of the colony site.) Chicks were individually marked with colored
pipe cleaner leg bands and transported to teating facilities at the Savannah River Ecology
Laboratory near Aiken, South Carolina. Initially, chicks were maintained in small (14.5 x
24 x 6 cm) plastic baskets lined with crumpled paper. Two of these small baskets, containing
two or three chicks each, were placed in larger baskets (60 x 45 x 40 cm). Infrared lamps
were used to maintain an ambient temperature of approximately 30øC, and insect netting
was draped over the larger baskets each evening to protect nestlings from mosquitos. When
chicks became ambulatory at about two weeks of age, they were transferred to a 3 x 4 x
2.5 m indoor-outdoor aviary equipped with branches, plastic boxes for roosting, and a
wading pool. Chicks were moved to the indoor portion of the enclosure each evening, where
a heat lamp maintained the temperature at approximately 25øC. When they were approx-
imately six weeks of age, the birds were placed in a 9.5 x 14.5 x 4.8 m outdoor flight aviary
equipped with flow-through wading pools and natural vegetation.
During the first 35 days, the birds were fed a ground mixture of 65% beef heart, 24%
hard-boiled egg, and 11% crayfish (Cambaridae) and fish, fortified with calcium carbonate
(0.88%), dicalcium phosphate (0.41%), vitamin premix (0.25%), trace minerals (0.05%), and
selenium premix (0.005%) (See Bolden and Jensen 1985). Water was added to the mixture
228 THE WILSON BULLETIN ß Vol. 102, No. 2, June 1990
to create a slurry for feeding. Young chicks were stimulated to gape by applying light pressure
on the gonys with the base of the index and middle fingers. We then poured the food slurry
into the mouths of the chicks using a narrow spoon. During the first week, chicks were fed
every 2 h from 07:00 h to 21:00 h. Beginning on Day 8, chicks were fed every 2 h from 09:
00 to 19:00 h. On Day 15, we stopped feeding the chicks the diet in slurry form and began
offering the same dietary components cut into 1.3-cm cubes five times a day at 3-h intervals.
At this age we began to encourage the chicks to feed independently by "pecking" at food
items with the index finger; however, most of the food was still being fed by hand. Throughout
the period of hand feeding, birds were fed only until intense begging had ceased, and care
was taken not to overfeed the chicks (cf. Archibald et al. 1980). Beginning on Day 22, chicks
were provided with food in a feeding tray four times a day at 3-h intervals. At the same
time, a commercially prepared diet consisting of horse meat, horse-meat by-products, corn,
soy, barley, fish meal, eggs, yeast, and a vitamin and mineral supplement (Bird of Prey Diet,
Central Nebraska Packing Inc., North Platte, Nebraska) was gradually introduced in place
of the beef heart. Birds were fed twice daily during the sixth week. At 12 weeks of age, the
birds were gradually switched to a diet of 67% Bird of Prey Diet, 17% fish or shrimp meal,
and 17% dog meal. Water was provided ad libitum once the chicks were ambulatory.
Birds were weighed on a triple-beam balance to the nearest 0.5 g on alternate days through
six weeks of age, and then twice monthly until they reached asymptotic mass. Changes in
plumage and behavior were recorded daily until the birds were six weeks old. Color de-
scriptions of plumage and hard and soft body parts were made according to Smithe (1975),
except where noted. In 1986, we photographed each bird at least once a week throughout
the study period. Facial patterns and coloration of the 1987 nestlings were documented with
photographs taken when the chicks were 24-31 days old. We recorded the begging calls of
the nine chicks raised in 1987 on a cassette tape recorder between Days 9 and 36. Begging
calls were analyzed using a Kay Elemetrics Corp. Sona-Graph.
Observations of more than 400 parent-reared nestlings were made at the colony site in
1985, 1986, 1987, and 1988 during regular visits to the colony to measure developing young,
band fledglings, and collect regurgltant samples. We attached backpack radio telemetry units
weighing 16-22 g (approximately 3% of their body mass at the time of attachment) to eight
25-31-day-old juveniles (two birds in 1987 and six birds in 1988) to determine when
fledglings begin to leave the colony site to forage on their own.
RESULTS
All 17 hand-reared chicks readily accepted the prepared diet and became
accustomed to hand feeding. All eight chicks reared in 1986 survived;
however, in 1987, two chicks were euthanized (one on Day 17 and one
on Day 34) after they developed slipped leg tendons despite the precau-
tions we took to prevent this condition (cf. Archibald et al. 1980). These
two chicks appeared healthy in all other respects, and data collected on
them prior to the onset of this condition are included below.
Physical Development
Bill and face.--Newly hatched White Ibises have a straight, Flesh Col-
ored (Smithe Color 5) bill, with a Dark Neutral Gray (Color 83) tip. A
white egg tooth, which is sloughed at 5-9 days, is located on the distal
tip of the upper mandible. The skin surrounding the eyes and on the face
is bare, loose-fitting, and Flesh Colored.
De Santo et al. ß NESTLING WHITE IBISES 229
This coloration of the bill and face persists for three days. Afterwards,
the facial skin and orbital area darken to Light Neutral Gray (Color 85),
except in some individuals where a narrow Salmon Color (Color 6) band
persists at the base of the upper mandible. The color change proceeds
distally until the upper third of both mandibles is Dark Neutral Gray.
The remaining portions of the bill change to Salmon Color.
A faint, Light Neutral Gray band appears on the upper mandible im-
mediately distal to the nares between 7 and 10 days. This band gradually
becomes Dark Neutral Gray and encircles both upper and lower mandibles
by the end of the second week. Gradual downward curving of the bill
begins at Day 14. Dark Neutral Gray areas on the proximal, central, and
distal portions of the bill gradually increase in size until most of the bill
is dark by the beginning of Week 5 (Fig. 1). The pied-bill, which persists
at least through Day 24, varies considerably in pattern, even among chicks
of the same age (Fig. 2). The dark areas of the bill are glossy in some
chicks and dull in others. By six weeks the entire bill is Light Neutral
Gray. Over the next three weeks, the base of the bill and the orbital area
become Pale Pinkish Buff (Color 121 D), while the remainder of the bill
becomes Salmon Color.
Legs andfeet.--The legs, feet, and nails of newly hatched chicks are
Flesh Colored. The nails and legs change to Neutral Gray between 2 and
7 days of age, followed by a darkening of the feet between 4 and 9 days.
The coloration of the nails, legs, and feet gradually becomes Medium
Neutral Gray (Color 84) or Dark Neutral Gray by Day 11. By the fifth
month, the feet and legs change to one of four shades of gray or grayish
brown (Pale Neutral Gray [Color 86], Glaucous [Color 80], Light Neutral
Gray, or Light Drab [Color 119 C]).
Body skin. --The skin ofhatchlings, which is Light Flesh Color, becomes
Light Neutral Gray around Day 2 and bluish gray (nearly Plumbeous
[Color 78]) by Day 3. By Day 35, the skin is Deep Vinaceous (Color 4).
Eyes.--The eyes begin to open 1-3 days after hatching and are com-
pletely open and alert by Day 9. The irises are Raw Umber (Color 223)
through the first month. At five months, the outer ring of the iris changes
to Medium Plumbeous (Color 87), while the inner portion becomes Pratt's
Payne's Gray (Color 88).
Plumage.--The heads and necks of hatchlings are covered with dense,
shiny Jet Black (Color 89) down which, on the crown, projects caudally.
Several white feathers form a spot on the crown of approximately 31%
of the hatchlings (31.4% of 162 nestlings in 1987, 30.2% of 262 nestlings
in 1988). The size of this crown spot, which is randomly distributed among
nestlings (Table 1), ranges from 1 to 5 mm in diameter. The remainder
of the body is sparsely covered with Pale Neutral Gray down on the
underparts and rump, and Dark Neutral Gray down on the shoulders and
230 THE WILSON BULLETIN ß Vol. 102, No. 2, June 1990
FXG. 1. Bill and facial markings at 7(A), 15(B), 26(C), and 32(D) days-of-age of a single
juvenile White Ibis hand-reared in 1986.
wings. For a detailed description of the structure of down feathers of
nestling White Ibises see Beebe (1914).
There is no visible feather growth until Day 4 or 5, when primaries
begin to emerge. Feathers in the humeral and alular tracts, as well as
secondaries and terriaries, appear between 6 and 10 days. The spinal tract,
FiG. 2. Bill and facial markings of four 27-31-day-old, hand-reared White Ibises taken
from four different nests in July 1987, along with two begging calls recorded on separate
days when the birds were between 23 and 30 days old. Note the similarity in calls within
individuals compared with differences among individuals. Horizontal marks on the ordinal
axis represent 1 and 5 kHz.
De Santo et al. ß NESTLING WHITE IBISES 231
A
B
I sec
D
232 THE WILSON BULLETIN ß Vol. 102, No. 2, June 1990
TABLE 1
DISTRIBUTION OF JUVENILE WHITE IBISES WITH AND WITHOUT WHITE FEATHERS ON THEIR
CROWN AMONG 201 NESTS AT THE PUMPKnSEED ISLXD COLONY SITE IN 1987 AND 1988
Nestlings with white spots: nestlings Ob-
without white spots served Expected' P
One-nestling nests (34) c Nestling with spot 10 10.4
Nestling without spot 24 23.6 >0.10
Two-nestling nests (108) 0-2 57 52.0
1:1 39 45.9
2.'0 12 10.1 >0.10
0:3 22 18.4
1:2 18 24.3
2:1 11 10.7
3:0 4 1.6 >0.10
0:4 1 0.7
1:3 0 1.2
2:2 0 0.8
3:1 1 0.2
4:0 1 0.03 NT d
Three-nestling nests (55)
Four-nestling nests (3)
Assuming a random distribution of nestlings with and without spots among all nests. (Because there was no indication
of a difference between years in the relative frequencies of nestlings with and without spots [X 2 test for heterogeneity, X 2
0.071, P > 0.90], we pooled data from the two years to increase our sample sizes for this analysis.)
b Chi-square tests for goodness-of-fit.
' Number of nests.
a No test because of small sample size.
ventral tract, and rectrices emerge between 8 and 12 days. The crural and
femoral tracts emerge between 24 and 32 days. The down on the head is
replaced by juvenal plumage between 32 and 46 days.
Unsheathing of feathers generally begins 1-2 days after the shafts emerge.
Primaries are completely unsheathed by 45 to 60 days, and the juvenal
plumage is nearly complete and smooth by the end of the second month.
Feather shafts of the developing juvenal plumage are Plumbeous, changing
to creamy white (no description in Smithe 1975). Feathers of the shoulders
and wings are Blackish Neutral Gray (Color 82). Feathers of the underparts
of the trunk, back, legs, rump, and one third of the base of the rectrices
and primaries are creamy white. Feathers of the head and neck are Van-
dyke Brown (Color 121), with narrow (on the head) or broad (on the neck)
lacings of creamy white, giving an overall appearance of Glaucous. By
three months, the feathers of the shoulders and wings have faded to
Vandyke Brown.
Behavioral Development
Week one captive birds.--The period of the most pronounced devel-
opmental change occurs during the first week. Newly hatched chicks,
De Santo et al. ß NESTLING WHITE IBISES 233
whose eyes are partially or completely closed, are weak and uncoordinated,
and they spend most of their time sleeping in a prone position. On Day
1, begging consists of jerky, lateral head movements and soft trilling
vocalizations. At this age, begging can be sustained for only about 3 sec
at a time. On Day 2, the chicks can support their heads by balancing them
on the base on their necks. At this time, begging movements are more
controlled, and the wings are held from the body and moved back and
forth horizontally, while the chick trills loudly. On Day 3, chicks can hold
their necks off the ground by balancing them on their chests and wrist
joints. Trilling is louder than on Day 2. At this time, chicks begin to
shuffle backwards to the edge of the "nest" to defecate, a behavior that
then persists throughout the nestling period.
By Day 4, chicks support their bodies by sitting on retracted legs, and
they are able to stand on their tarsometatarsi for up to 10 sec. At this
time, chicks, which beg while resting on their tarsometatarsi and moving
their wings vertically with their heads and necks fully extended, forcibly
probe their bills into the keeper's hand during feedings. Each begging
vocalization lasts for about 2 sec. By Day 6, chicks can stand on extended
legs for 15 sec and can crawl on their tarsometatarsi.
Week one free-living birds.--The development of locomotion and
vocalizations in free-ranging birds are comparable to those observed in
captive-reared birds, with a noticeable progression from tentative, un-
coordinated begging in newly hatched chicks to the controlled, sustained
begging of 7-day-old chicks. Free-living chicks beg continually unless they
are being brooded, even when neither parent is near the nest. Although
they are capable of crawling by the end of this period, undisturbed chicks
remain in the nest.
Week two captive birds.--Chicks begin walking on their partially ex-
tended tarsometatarsi by Day 8, and by Day 14 they are walking on fully
extended legs, exploring the area within several meters of the nest, and
preening their developing juvenal plumage. Chicks continue to beg through
this period while resting on their tarsometatarsi. During the second week,
chicks begin to flap one or both wings when begging. At this time, chicks
beg for food from other chicks by placing their bill around the closed bill
of another .chick, moving their head laterally, flapping one wing, and
trilling loudly. Solicited chicks were not seen disgorging food.
Week twofree-living birds.--In the wild, chicks younger than 15-days-
old rarely leave the nest except to flee from approaching humans. When
approached by a human, nestlings climb from their elevated nests (7-50
cm off the ground in black needle rush [Juncus roemerianus], giant cord
grass [Spartina cynosuroides], and marsh elder [Ira futescens]) into the
surrounding vegetation. Chicks are less vocal at this age, and they appear
to beg only when a parent is near.
234 THE WILSON BULLETIN ß Vol. 102, No. 2, June 1990
Week three captive birds.--At three weeks, chicks beg and feed more
persistently, and they pirate food from each other by jabbing their closed
bills through the open bill of a nestling being fed by the keeper. If the
harassed nestling drops its food, the food is quickly consumed by the
other chicks. At this age, chicks beg by rapidly approaching the keeper
while flapping their wings and trilling loudly, and they retreat to a comer
of the pen after being fed.
Week three free-living birds.--Chicks spend little time in their nests
after they reach 15 days-of-age. Creches of up to at least 30 similar-aged
juveniles walk and stand within 20 m of their nests. Food piracy occurs
regularly. When solicited, unattended wild chicks disgorge food to both
juvenile and adult pirates.
Weeks four and five captive birds.--Chicks now eat from feeding trays
most of the time but still solicit food from the keepers. By Week 4, chicks
no longer allow the keepers to use their fingers to stimulate gaping, and
they accept food without encouragement. At this time, chicks accept less
food by hand from the keepers, and body mass stabilizes for 6-10 days
until the chicks begin to feed on their own (Fig. 3). Chicks sometimes
appear lethargic and subdued during this period. Chicks begin to take
short hopping flights between branches, and by the end of Week 5, most
birds are able to fly at least 2 m. Chicks increase the number of visits to
wading pools, and they begin to exhibit considerable probing behavior.
Weeks four and five free-living birds.--Wild birds spend much time
perched on black needle rush and marsh elder, and they take short flights
of up to 2 m. They also begin to wade and probe in the shallow water
(< 10 cm) surrounding the island colony site. Chicks are fed by adults
away from their nests while perched on vegetation.
Weeks six and seven.--Captive birds were released a into large flight
aviary at this time and continued to beg for food from the keepers. Sus-
tained flights of at least 50 m occurred in free-living ibises at approximately
35-40 days. Young ibises are often seen flying after adults, begging for
food. At 45 to 55 days of age, juveniles first leave the island colony site
and fly over water for at least 750 m to forage in juvenile or mixed-age
flocks of up to 300 individuals. (Eight radio-telemetered chicks left the
Pumpkinseed Island colony site between approximately 47 and 56 days
of age.)
DISCUSSION
Plumage and behavior appeared to develop in the same manner and
at the same rate in hand-reared and parent-reared nestlings, although in
our study hand-reared birds achieved the same mass several days later
than did parent-reared birds (see also Kushlan 1977c). Even so, several
FIG. 3.
De Santo et al. ß NESTLING WHITE IBISES 235
15001 ' male
o lemale '';{
1øøøi -..
ß Oo Ooo o o
I oo oOO oo
0 20 40 60 80
Age(days)
Body masses of 17 White Ibises hand-reared during 1986 and 1987.
behavioral patterns developed in our hand-reared birds earlier than in
parent-reared birds, probably because we tracked the development of
hand-reared birds more closely than that of parent-reared birds (cf. Kahl
1966). Overall, there was no indication that the captive birds failed to
develop normally (cf. Rudegeair 1975).
The patterns of behavioral and plumage development in nestling White
Ibises appear to be nearly identical to that described for the somewhat
larger Northern Bald Ibis, although nestling White Ibises develop con-
siderably more rapidly and fledge earlier than do nestling bald ibises
(Michelmore and Oliver 1982).
The classic work on White Ibis nestling ontogeny was by Beebe (1914).
Overall, our results agree with his earlier report, as well as those of Kushlan
(1974, 1977c), Rudegeair (1975), and ffrench and Haverschmidt (1970).
Because we tracked changes with age in the appearance of the bills of
individual nestlings, we are able to document that the "good deal of
variation" in bill patterns first reported by Beebe (1914) is due not only
to differences within individuals as they develop, but also to differences
among individuals of the same age. Kushlan (1977a, c) reported that hand-
reared nestlings increased their mass more slowly than did parent-reared
birds, a phenomenon we also noted, even though in our study we found
no difference between these two groups with regard to plumage or be-
havioral development. The reason for the difference in growth is unclear.
Kushlan (1977c) suggested that the growth of his captive birds may have
236 THE WILSON BULLETIN ß Vol. 102, No. 2, June 1990
been "similar to that in the wild under stressful conditions." Because our
nestlings were part of a long-term study of among-year variance in the
growth of nestling ibises and because we wished to reduce within-year
variance in our data set, parent-reared birds measured during the course
of our study included only first-hatched chicks (De Santo, Johnston, and
Bildstein, unpubl. data). Our hand-reared nestlings, however, included
both first- and later-hatched individuals, and it may be that part of the
difference in the growth rates of these two groups reflects that situation.
Our results demonstrate that White Ibises are ambulatory several weeks
before they begin to fly. This developmental sequence parallels Kushlan's
(1977a) findings that in young ibises "structures associated with terrestrial
locomotion" grow more rapidly than those "associated with flight."
As in many species of wading birds (for examples see Gross 1923; Kahl
1962; Mc Vaugh 1972, 1975; Gavifio and Dickerman 1972; Luthin 1983;
Thomas 1984), bill coloration and markings in nestling White Ibises differ
considerably from those found in adults. Furthermore, even though the
color and pattern of each ibis nestling's bill changes continuously as the
bird develops (Fig. 1), by the end of their second week same-aged nestling
White Ibises also exhibit considerable individual variation in these char-
acteristics (Fig. 2). The same appears to be true in at least several other
species of colonial nesting wading birds (Little Blue Heron [Egretta caeru-
lea], Tri-cotored Heron [E. tricolor], Mc Vaugh 1972; Least Bittern [Ixob-
rychus exilis], Snowy Egret [E. thula], Yellow-crowned Night-Heron [Ny-
ticorax violaceus], Mc Vaugh 1975; Green-backed Heron [Butorides
striatus], Gavifio and Dickerman 1972).
Several researchers have suggested that such individual variation, es-
pecially in species where individuals nest close to one another or where
creching occurs, helps parents recognize their young (Buckley and Buckley
1970, Skutch 1979, O'Connor 1984, Stoddard and Beecher 1983). Indi-
vidual variation in the bill markings of the White Ibises we reared was
obvious by Day 9 (Fig. 2), just prior to the onset of increased mobility
and creche formation in the wild. The white crown that occurred on 31%
of the nestlings (Table 1) was obvious by Day 2 and remained so through-
out the nestling period. ffrench and Hayerschmidt (1970) also report the
presence of white crown feathers on some of the nestling Scarlet Ibises
they studied. We were able to use these markings alone to recognize our
captive birds individually. We propose that this extreme variation in the
appearances of nestling White Ibises, together with individual variation
in the begging calls of nestlings (Fig. 2), function as highly variable "sig-
nature traits" (sensu Stoddard and Beecher 1983) that enable parent ibises
to locate and preferentially care for their young in large creches.
Stoddard and Beecher (1983) offer data suggesting that, in swallows,
De Santo et al. ß NESTLING WHITE IBISES 237
coloniality selects for conspicuous signature traits similar to those we
have described for White Ibises. Incidental observations of Glossy Ibises
(Plegadisfalcinellus), which also nest colonially on Pumpkinseed Island,
and whose nestlings often creche, suggest considerable individual varia-
tion in the head and facial plumage of nestlings (pers. obs., see also Cramp
and Simmons 1977). The extent to which nestlings of other species of
colonial and, especially, solitary nesting ibises (e.g., Green Ibises) exhibit
individual variation is unknown (cf Luthin 1983).
ACKNOWLEDGMENTS
For logistic support we thank I. L. Brisbin, Jr. and C. Strojan of the Savannah River
Ecology Lab, F. J. Vernberg and D. Allen of the Baruch Marine Lab, and J. A. Cherry of
the Univ. of Georgia. C. Wyatt developed the diet fed to captive ibises, and M.P. Rowe
guided the production of the sonagraphs of juvenile begging calls. H. Zippler, C. Parsons,
M. Jackson, J. Dixon, and several other ibis keepers helped us feed our ibises. The comments
of an anonymous referee on an earlier draft of this paper substantially improved our coverage
of the literature. Our studies of White Ibises have been supported by an NSF-LTER grant
to the Belle W. Baruch Institute for Marine Biology and Coastal Research, grants from the
National Environmental Research Park program under a contract between the U.S. De-
partment of Energy and the University of Georgia (Contract No. DE-AC09-76SR00-819),
the Winthrop College Research Council and Arts and Sciences Faculty Development Fund,
and the Whitehall Foundation. T. De Santo was supported by the Frank M. Chapman Fund,
a Stoddard-Sutton-Burleigh Endowment Fund of the University of Georgia, and by two
Paul A. Stewart Awards. This paper is contribution number 800 of the Belle W. Baruch
Institute for Marine Biology and Coastal Research.
LITERATURE CITED
ARCaIBAD, G. W., D. H. L^NXIS, L. R. L^NTS, D I. MtmTcaIr, A. 1980. Endangered
ibises Threskiornithinae: their future in the wild and in captivity. Int. Zoo Yearb. 20:
6-17.
BœœBœ, C. W. 1914. Notes on the ontogeny of the White Ibis, Guara alba. Zoologica 1:
241-248.
BœR3/4, H.H. 1975. South West Africa. Pp. 53-60 in Flamingos (J. Kear and N. Duplaix-
Hall, eds.). Poyser, Berkhamsted, Hertfordshire, England.
BOLt>œN, S. L. qt> L. S. JœNSœN. 1985. The effect of dietary calcium level and ingredient
composition on plasma calcium and shell quality in laying hens. Poult. Sci. 64:1499-
1505.
BUCKLEY, P. A. AND F. G. BUCKLEY. 1970. Color variation in the soft parts and down of
Royal Terns. Auk 87:1-13.
CRAMP, S. AND K. E. L. SIMMONS, EDS. 1977. Glossy Ibis. Pp. 338-343 in Handbook of
the birds of Europe, the Middle East, and North Africa. Vol. 1. Oxford Univ. Press,
Oxford, England.
FFRENCH, R. P. AND F. HAYERSCHMIDT. 1970. The Scarlet Ibis in Surinam and Trinidad.
Living Bird 9:147-165.
Faœt>œaicic, P.C. 1987. Chronic tidally-induced nest failure in a colony of White Ibises.
Condor 89:413-419.
238 THE WILSON BULLETIN ß Vol. 102, No. 2, June 1990
GAVIIO, G. AND R. W. DICKERMAN. 1972. Nestling development of Green Herons at San
Bls, Nayarit, Mexico. Condor 74:72-79.
GRoss, A.O. 1923. The Black-crowned Night Heron (Nyticorax nyticorax) of Sandy Neck.
Auk 40:191-214.
JUAREZ, L. C. AND R. W. DICKERMAN. 1972. Nestling development of Boat-billed Herons
(Cochlearius). Wilson Bull. 84:456-468.
KAHL, M.P. 1962. Bioenergetics of growth in nestling Wood Storks. Condor 64:169-183.
--. 1966. A contribution to the ecology and reproductive biology of the Marabou
Stork (Leptoptilos crumeniferus) in East Africa. J. Zool. Lond. 148:298-311.
KUSHLAN, J.A. 1974. The ecology of the White Ibis in southern Florida, a regional study.
Ph.D. diss., The Univ. of Miami, Coral Gables, Florida.
1977a. Differential growth of body parts in the White Ibis. Auk 94:164-167.
--. 1977b. Population energetics of the American White Ibis. Auk 94:11 4-122.
1977c. Growth energetics of the White Ibis. Condor 79:31-36.
LUTmN, C.S. 1983. Breeding ecology of neotropical ibises (Threskiornithidae) in Vene-
zuela, and comments on captive propagation. Pp. 95-124 in Proc. Jean Delacour/I. F.
C. B. Symp. on breeding birds in captivity. Los Angeles, California.
MC VAUGH, W., JR. 1972. The development of four North American herons. Living Bird
11:155-173.
1975. The development of four North American herons. II. Living Bird 14:163-
183.
Mœmuar, M. 1981. Ontogeny of behavior in the Great Blue Heron (Ardea herodius). M.S.
thesis, The Ohio State Univ., Columbus, Ohio.
MICHELMORE, F. AND W. L. R. OLIVER. 1982. Hand-rearing and development of Bare-
faced Ibis chicks Geronticus eremita at the Jersey Wildlife Preservation Trust; with
comparative observations of parent-rearing behaviour. Dodo, J. Jersey Wildl. Preserv.
Trust 19:51-69.
O'Co,nqoR, R.J. 1984. The growth and development of birds. Wiley, New York, New
York.
RUDEGEAIR, T. J., JR. 1975. The reproductive behavior and ecology of the White Ibis
(Eudocimus albus). Ph.D. diss., Univ. of Florida, Gainesville, Florida.
SKuxcI, A.F. 1979. Parent birds and their young. Univ. of Texas Press, Austin, Texas.
SMITHE, F.a. 1975. Naturalist's color guide. Am. Mus. Nat. Hist., New York, New York.
SNOW, B. K. 1974. The Plumbeous Heron of the Galapagos. Living Bird 13:51-72.
STODDARD, P. K. AND M. BEECHER. 1983. Parental recognition of offspring in the Cliff
Swallow. Auk 100:795-799.
THOMAS, B.T. 1984. Maguari Stork nesting: juvenile growth and behavior. Auk 101:812-
813.
WXSON, R. T., M.P. WXSON, ND J. W. DumCIN. 1988. Growth of nestling Hammerkops
Scopus umbretta in central Mall Ibis 130:384-392.