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Laying Sequence (laying + sequence)

Distribution by Scientific Domains
Life Sciences100%

Selected Abstracts

Egg carotenoids in passerine birds introduced to New Zealand: relations to ecological factors, integument coloration and phylogeny

FUNCTIONAL ECOLOGY, Issue 4 2005
P. CASSEY
Summary 1Carotenoids are a diverse group of organic compounds that function as important antioxidants and immunostimulants and are of particular importance to developing embryos and young birds. In addition, they constitute the majority of yellow to red hues in the integumentary pigments of birds. 2We investigated the maternally derived carotenoid concentrations and balances in the yolks of eight European passerine species successfully introduced and abundant in New Zealand. Specifically, we addressed whether variation in maternally derived yolk carotenoids were related to phylogeny, integument coloration, native vs introduced distribution, breeding habitat and laying sequence. 3Across species, the concentration and balance of carotenoids deposited in yolks varied significantly. Egg carotenoid concentration was positively associated with the occurrence of male carotenoid pigmented body regions. Carotenoid concentrations differed between agricultural habitat types within New Zealand but not between samples from New Zealand and Europe. Controlling for the differences among species, and among clutches within species, increased egg carotenoid concentrations were significantly associated with decreasing fresh egg mass and eggs laid earlier in the laying sequence. 4We conclude that variability in the concentration and balance of carotenoids deposited in the egg yolk imply different relative roles for ecological and phylogenetic factors that warrant further investigation, both within and across species. [source]

The effects of low dietary calcium during egg-laying on eggshell formation and skeletal calcium reserves in the Zebra Finch Taeniopygia guttata

IBIS, Issue 2 2001
S. JAMES REYNOLDS
Many small passerines forage intensively for calcium-rich foods during laying. Increased incidences of shell defects in eggs of small passerines have been reported, particularly in western Europe, and these have been explained in terms of declining calcium availability in soils, resulting from prolonged anthropogenic acid deposition. Studies in the field have provided laying birds, nesting in areas of low calcium availability, with calcium supplements. An alternative approach was adopted in this study by allowing captive Zebra Finches Taeniopygia guttata to lay first clutches on ad libitum calcium, switching them to a low calcium diet for 72 hours for the formation of all but the first egg of the second clutch and reinstating ad libitum calcium for the final clutch. Control females had access to ad libitumcalcium for all three clutches. Clutch sizes did not vary significantly between birds on low calcium and controls. The former took over three days longer to lay clutch 3 than did controls but the difference was not statistically significant. Birds on low calcium laid eggs that declined in shell ash mass with laying sequence, indicating that birds may have been calcium-limited. Although not statistically significant, eggshell thickness also declined with laying sequence in clutches laid by females on low calcium. The remaining egg measurements (shell mass, shell surface area and volume] of clutches laid by birds on low calcium did not differ significantly from those of controls. Furthermore, females on low calcium did not resort to skeletal reserves to provide sufficient calcium for egg formation. Dietary calcium appears to be of paramount importance in providing sufficient calcium for clutch formation. [source]

Should males come first?

JOURNAL OF AVIAN BIOLOGY, Issue 6 2005
The relationship between offspring hatching order, sex in the black-headed gull Larus ridibundus
In birds with hatching asynchrony and sexual size dimorphism, chicks hatched earlier and later in the laying sequence usually suffer different mortalities due to uneven abilities to compete for food, especially in poor years. If sexes differ in vulnerability to environmental conditions, e.g., by having different food requirements due to differential growth rates, mothers can increase fitness by allocating sex according to the laying order, producing less vulnerable sex later rather than early in the clutch. By analysing variation in primary sex ratio using a PCR-based DNA technique, we tested this prediction in black-headed gull Larus ridibundus chicks where males may be the less viable sex under adverse conditions. The overall primary sex ratio of the population did not depart from parity. However, first hatched chicks were more likely to be males whereas last hatched chicks were more likely to be females. Both egg volume and hatchling body mass decreased with laying order irrespective of sex. Time of breeding had no effect on offspring sex or hatchling sex ratios. [source]

Multiple pathways of maternal effects in black-headed gull eggs: constraint and adaptive compensatory adjustment

JOURNAL OF EVOLUTIONARY BIOLOGY, Issue 4 2006
T. G. G. GROOTHUIS
Abstract We investigated in the black-headed gull whether female deposition of antioxidants and immunoglobulins (enhancing early immune function), and testosterone (suppressing immune function and increasing early competitive skills) correlate suggesting that evolution has favoured the mutual adjustment of different pathways for maternal effects. We also took egg mass, the position of the egg in the laying sequence and offspring sex into account, as these affect offspring survival. Yolk antioxidant and immunoglobulin concentrations decreased across the laying order, while yolk testosterone concentrations increased. This may substantially handicap the immune defence of last-hatched chicks. The decrease in antioxidant levels was greater when mothers had a low body mass and when the increase in testosterone concentrations was relatively large. This suggests that female black-headed gulls are constrained in the deposition of antioxidants in last-laid eggs and compensate for this by enhanced testosterone deposition. The latter may be adaptive since it re-allocates the chick's investment from costly immune function to growth and competitive skills, necessary to overcome the consequences of hatching late from an egg of reduced quality. [source]