Phenology and growth plasticity in a short-lived chameleon under climatic variation

Allbwn ymchwil: Cyfraniad at gyfnodolynErthygladolygiad gan gymheiriaid

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Phenology and growth plasticity in a short-lived chameleon under climatic variation. / Raselimanana, Miary; Rice, Benjamin; Kappeler, Peter et al.
Yn: Salamandra, Cyfrol 57, Rhif 3, 08.2021, t. 435-443.

Allbwn ymchwil: Cyfraniad at gyfnodolynErthygladolygiad gan gymheiriaid

HarvardHarvard

Raselimanana, M, Rice, B, Kappeler, P & Eckhardt, F 2021, 'Phenology and growth plasticity in a short-lived chameleon under climatic variation', Salamandra, cyfrol. 57, rhif 3, tt. 435-443.

APA

Raselimanana, M., Rice, B., Kappeler, P., & Eckhardt, F. (2021). Phenology and growth plasticity in a short-lived chameleon under climatic variation. Salamandra, 57(3), 435-443.

CBE

Raselimanana M, Rice B, Kappeler P, Eckhardt F. 2021. Phenology and growth plasticity in a short-lived chameleon under climatic variation. Salamandra. 57(3):435-443.

MLA

VancouverVancouver

Raselimanana M, Rice B, Kappeler P, Eckhardt F. Phenology and growth plasticity in a short-lived chameleon under climatic variation. Salamandra. 2021 Awst;57(3):435-443.

Author

Raselimanana, Miary ; Rice, Benjamin ; Kappeler, Peter et al. / Phenology and growth plasticity in a short-lived chameleon under climatic variation. Yn: Salamandra. 2021 ; Cyfrol 57, Rhif 3. tt. 435-443.

RIS

TY - JOUR

T1 - Phenology and growth plasticity in a short-lived chameleon under climatic variation

AU - Raselimanana, Miary

AU - Rice, Benjamin

AU - Kappeler, Peter

AU - Eckhardt, Falk

PY - 2021/8

Y1 - 2021/8

N2 - Understanding species' responses to climate change is crucial for the mitigation of its effects. Few studies, however, have examined how climate change impacts timing in reptile life cycles, or how it may interact with other life history traits. Here, we explore associations between climatic variation, reptile phenology, and juvenile growth. We used the chameleon species Furcifer labordi as a biological model given its unusual annual life history: embryonic diapause during austral winter is followed by synchronous hatching and an extremely short adult lifespan. We sampled chameleons (n = 674) and climate data across three field seasons between 2013-2018 in Kirindy Forest (CNFEREF), western Madagascar. Evidence of temperature and precipitation shifts have already been reported for this region. We show climate-dependent variation in the timing of hatching: it always occurred after the first rains and its onset varied by up to 32 days among years (equivalent to 12-17% of the total length of non-embryonic lifespan). Moreover, delayed rainy season onset resulted in a shortening of the period between the first rains and first hatching. Significant differences in hatching time and temperature also resulted in variation in juvenile growth, specifically faster post-hatching growth in the late-hatching cohort. Therefore, climatic variation was associated with phenological and juvenile growth plasticity in the life cycle of F. labordi. Implications for conservation are worrying, as complete populations could be lost if a single cohort of this annual species cannot effectively respond to increasing climatic fluctuation.

AB - Understanding species' responses to climate change is crucial for the mitigation of its effects. Few studies, however, have examined how climate change impacts timing in reptile life cycles, or how it may interact with other life history traits. Here, we explore associations between climatic variation, reptile phenology, and juvenile growth. We used the chameleon species Furcifer labordi as a biological model given its unusual annual life history: embryonic diapause during austral winter is followed by synchronous hatching and an extremely short adult lifespan. We sampled chameleons (n = 674) and climate data across three field seasons between 2013-2018 in Kirindy Forest (CNFEREF), western Madagascar. Evidence of temperature and precipitation shifts have already been reported for this region. We show climate-dependent variation in the timing of hatching: it always occurred after the first rains and its onset varied by up to 32 days among years (equivalent to 12-17% of the total length of non-embryonic lifespan). Moreover, delayed rainy season onset resulted in a shortening of the period between the first rains and first hatching. Significant differences in hatching time and temperature also resulted in variation in juvenile growth, specifically faster post-hatching growth in the late-hatching cohort. Therefore, climatic variation was associated with phenological and juvenile growth plasticity in the life cycle of F. labordi. Implications for conservation are worrying, as complete populations could be lost if a single cohort of this annual species cannot effectively respond to increasing climatic fluctuation.

M3 - Article

VL - 57

SP - 435

EP - 443

JO - Salamandra

JF - Salamandra

IS - 3

ER -