Heartbeat, embryo communication and hatching synchrony in snake eggs

Abstract The degree of hatching synchrony in clutches of passerine birds frequently varies among species and among individuals of the same species. Many hypotheses have been proposed to explain why some eggs hatch several days after others in a clutch. We tested one of these hypotheses, the energetic-constraints hypothesis, which proposes that females in poor physical condition postpone initiating incubation and hatch their clutches synchronously, whereas females in good condition begin incubation early and hatch their clutches asynchronously. We tested the hypothesis using the House Wren (Troglodytes aedon) because recent studies have found little difference in productivity between synchronously and asynchronously hatching clutches in this species, suggesting that the degree of hatching synchrony varies for reasons unrelated to nestling growth and survival. We used logistic regression to test the dependence of the degree of hatching synchrony on each of two measures of female condition. We found no relationship between female condition and degree of hatching synchrony. These results and two other lines of evidence are inconsistent with the energetic-constraints hypothesis as an explanation for variation in degree of hatching synchrony in this House Wren population. ¿Predice la Condición de las Hembras la Sincronía de Eclosión en Troglodytes aedon? Resumen. Con frecuencia, el grado de sincronía en la eclosión de nidadas de aves paserinas varía entre especies y entre individuos de la misma especie. Se han propuesto muchas hipótesis para explicar por qué algunos huevos eclosionan varios días después que otros en una misma nidada. Pusimos a prueba una de esas hipótesis, la de las limitaciones energéticas, que propone que hembras en mala condición física postponen el inicio de la incubación y sus nidadas eclosionan sincrónicamente, mientras que aquellas en buena condición inician la incubación temprano y sus nidadas eclosionan asincrónicamente. Pusimos a prueba la hipótesis usando a Troglodytes aedon, pues estudios recientes en esta especie han encontrado pocas diferencias en productividad entre nidadas de eclosión sincrónica y asincrónica, lo que sugiere que el grado de sincronía en la eclosión varía por motivos no relacionados con el crecimiento y supervivencia de los pichones. Utilizamos regresión logística para evaluar el grado de dependencia de la sincronía de eclosión en dos medidas de condición física de las hembras. No encontramos ninguna relación entre la condición de las hembras y el grado de sincronía en la eclosión. Estos resultados y otras dos líneas de evidencia son inconsistentes con la hipótesis de las limitaciones energéticas como una explicación para la variación en el grado de sincronía de eclosión en esta población de T. aedon.

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Interplays between pre- and post-natal environments affect early-life mortality, body mass and telomere dynamics in the wild

Journal of Experimental Biology ◽

10.1242/jeb.231290 ◽

2020 ◽

Vol 224 (1) ◽

pp. jeb231290

Author(s):

Tiia Kärkkäinen ◽

Pauliina Teerikorpi ◽

Wiebke Schuett ◽

Antoine Stier ◽

Toni Laaksonen

Keyword(s):

Telomere Length ◽

Early Life ◽

Maternal Investment ◽

Interactive Effects ◽

Hatching Order ◽

Hatching Synchrony ◽

Asynchronous Hatching ◽

In The Wild ◽

Developmental Conditions ◽

Telomere Dynamics

ABSTRACTEarly-life conditions are crucial determinants of phenotype and fitness. The effects of pre- and post-natal conditions on fitness prospects have been widely studied but their interactive effects have received less attention. In birds, asynchronous hatching creates challenging developmental conditions for the last-hatched chicks, but differential allocation in last-laid eggs might help to compensate this initial handicap. The relative importance and potential interaction between pre- and post-hatching developmental conditions for different fitness components remains mostly unknown. We manipulated hatching order in wild pied flycatchers (Ficedula hypoleuca), creating three groups: natural asynchrony (last-laid eggs hatching last), reversed asynchrony (last-laid eggs hatching first) and hatching synchrony (all eggs hatching at once). We examined the effects of these manipulations on early-life survival, growth and telomere length, a potential cellular biomarker of fitness prospects. Mortality was mostly affected by hatching order, with last-hatched chicks being more likely to die. Early-life telomere dynamics and growth were influenced by the interplays between laying and hatching order. Last-laid but first-hatched chicks were heavier but had shorter telomeres 5 days after hatching than their siblings, indicating rapid early growth with potential adverse consequences on telomere length. Synchronous chicks did not suffer any apparent cost of hatching synchronously. Impaired phenotypes only occurred when reversing the natural hatching order (i.e. developmental mismatch), suggesting that maternal investment in last-laid eggs might indeed counterbalance the initial handicap of last-hatched chicks. Our experimental study thus highlights that potential interplays between pre- and post-natal environments are likely to shape fitness prospects in the wild.

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