Resource and seasonality drive interspecific variability in simulations from a dynamic energy budget model.

التفاصيل البيبلوغرافية
العنوان:	Resource and seasonality drive interspecific variability in simulations from a dynamic energy budget model.
المؤلفون:	Mariño J; Department of Biology, Memorial University of Newfoundland 45 Arctic Ave., St John's, Newfoundland, Canada A1C 5S7., Dufour SC; Department of Biology, Memorial University of Newfoundland 45 Arctic Ave., St John's, Newfoundland, Canada A1C 5S7., Hurford A; Department of Biology, Memorial University of Newfoundland 45 Arctic Ave., St John's, Newfoundland, Canada A1C 5S7.; Department of Mathematics and Statistics, Memorial University of Newfoundland. Elizabeth Avenue, St John's, Newfoundland, Canada A1C 5S7., Récapet C; Université de Pau et des Pays de l'Adour, E2S UPPA, INRAE, ECOBIOP. Quartier Ibarron 64210, Saint-Pée-sur-Nivelle, France.
المصدر:	Conservation physiology [Conserv Physiol] 2023 Mar 30; Vol. 11 (1), pp. coad013. Date of Electronic Publication: 2023 Mar 30 (Print Publication: 2023).
نوع المنشور:	Journal Article
اللغة:	English
بيانات الدورية:	Publisher: Published on behalf of Society for Experimental Biology [by] Oxford University Press Country of Publication: England NLM ID: 101656116 Publication Model: eCollection Cited Medium: Print ISSN: 2051-1434 (Print) Linking ISSN: 20511434 NLM ISO Abbreviation: Conserv Physiol Subsets: PubMed not MEDLINE
أسماء مطبوعة:	Original Publication: Oxford : Published on behalf of Society for Experimental Biology [by] Oxford University Press, 2013-
مستخلص:	Animals show a vast array of phenotypic traits in time and space. Such variation patterns have traditionally been described as ecogeographical rules; for example, the tendency of size and clutch size to increase with latitude (Bergmann's and Lack's rules, respectively). Despite considerable research into these variation patterns and their consequences for biodiversity and conservation, the processes behind trait variation remain controversial. Here, we show how food variability, largely set by climate and weather, can drive interspecific trait variation by determining individual energy input and allocation trade-offs. Using a dynamic energy budget (DEB) model, we simulated different food environments, as well as interspecific variability in the parameters for energy assimilation, mobilization and allocation to soma. We found that interspecific variability is greater when the resource is non-limiting in both constant and seasonal environments. Our findings further show that individuals can reach larger biomass and greater reproductive output in a seasonal environment than in a constant environment of equal average resource due to the peaks of food surplus. Our results agree with the classical patterns of interspecific trait variation and provide a mechanistic understanding that supports recent hypotheses which explain them: the resource and the eNPP (net primary production during the growing season) rules. Due to the current alterations to ecosystems and communities, disentangling the mechanisms of trait variation is increasingly important to understand and predict biodiversity dynamics under climate change, as well as to improve conservation strategies. Competing Interests: The authors have no conflicts to declare. (© The Author(s) 2023. Published by Oxford University Press and the Society for Experimental Biology.)
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فهرسة مساهمة:	Keywords: Bergmann's rule, body size, eNPP, Lack's rule, trait variation, resource availability
تواريخ الأحداث:	Date Created: 20230403 Latest Revision: 20230404
رمز التحديث:	20231215
مُعرف محوري في PubMed:	PMC10064112
DOI:	10.1093/conphys/coad013
PMID:	37006337
قاعدة البيانات:	MEDLINE

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تدمد:	2051-1434
DOI:	10.1093/conphys/coad013