Habitat dimensionality and feeding strategies but not temperature as determinants of body size-trophic structure relationship in a marine food web.

IF 3.5 1区 环境科学与生态学 Q1 ECOLOGY Journal of Animal Ecology Pub Date : 2024-10-30 DOI:10.1111/1365-2656.14199
Valentina Leoni, Valentina Franco-Trecu, Fabrizio Scarabino, Lia Sampognaro, Laura Rodríguez-Graña, Angel Manuel Segura
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Abstract

Disentangling the determinants of trophic structure is central to ecology. The capacity to capture subjugate and consume a prey (i.e. gape limitation) is a relevant limitation to acquire energy for most organisms, especially those in smaller size ranges. This generates a size hierarchy of trophic positions in which large organisms consume small ones. Body size is tightly correlated to gape limitation and explains a large fraction of variance in the body size-trophic position relationship. However, a considerable fraction of variance still remains to be explained. Consumer search space dimensionality (2D or 3D) and feeding strategies, temperature and the size structure of primary producers can alter the trophic structure, but tests based on information from natural food webs are scarce. We generated specific predictions about the body size trophic position relationship and evaluated them using information from a subtropical South Atlantic coastal marine ecosystem: benthic realm (2D, rocky shore and sandy beach) and the pelagic realm (3D). We characterized this marine coastal food web based on stable isotopes of carbon and nitrogen from 256 samples from primary producers (macroalgae and phytoplankton) to large predators (sand shark) in summer and winter. Consumer body size encompassed six orders of magnitude in weight from 10-2 to 6 × 104 g. Isotopic signal corresponded to an integration of carbon sources from basal consumers to top predators. The body size-trophic position relationship showed a linear positive association with different slopes for the benthic and pelagic environments. This implies a smaller predator prey size ratio for pelagic (3D) with respect to benthic consumers (2D) as theoretically expected. No seasonal differences were found in slopes and most of the overall variance in benthic environments was largely explained by feeding strategies of the different taxonomic groups. We provide an integrated evaluation on the role of body size, consumer search space and feeding strategy to understand the determinants of trophic position. Results demonstrate that integrating gape limitation hypothesis, the dimensionality of consumer search space and feeding strategies into a formal robust framework to understand trophic structure is feasible even in complex natural ecosystems.

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海洋食物网中决定体型-营养结构关系的因素是生境维度和摄食策略,而不是温度。
厘清营养结构的决定因素是生态学的核心。对于大多数生物,尤其是那些体型较小的生物来说,捕获和吞食猎物的能力(即张口限制)是获取能量的一个相关限制因素。这就形成了营养位置的大小等级,其中大生物消耗小生物。体型与张口限制密切相关,可以解释体型-营养位置关系中的大部分变异。然而,仍有相当一部分差异有待解释。消费者的搜索空间维度(二维或三维)和摄食策略、温度以及初级生产者的体型结构都会改变营养结构,但基于自然食物网信息的检验却很少。我们对体型营养位置关系进行了具体预测,并利用亚热带南大西洋沿岸海洋生态系统的信息对其进行了评估:底栖领域(二维,岩石海岸和沙滩)和中上层领域(三维)。我们根据从初级生产者(大型藻类和浮游植物)到大型捕食者(沙鲨)的 256 份夏季和冬季样本中碳和氮的稳定同位素,确定了这一海洋沿岸食物网的特征。消费者的体重从 10-2 克到 6 × 104 克不等。同位素信号与从基底消费者到顶级捕食者的碳源整合相对应。体型与营养位置的关系呈现线性正相关,底栖和浮游环境的斜率不同。这意味着,与理论预期的底栖消费者(2D)相比,浮游(3D)捕食者的猎物体型比更小。斜率没有发现季节性差异,底栖环境的大部分总体差异在很大程度上是由不同分类群的摄食策略所解释的。我们对体型、消费者搜索空间和摄食策略的作用进行了综合评估,以了解营养位置的决定因素。研究结果表明,即使在复杂的自然生态系统中,也可以将开口限制假说、消费者搜索空间维度和摄食策略整合到一个正式的稳健框架中,以了解营养结构。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
Journal of Animal Ecology
Journal of Animal Ecology 环境科学-动物学
CiteScore
9.10
自引率
4.20%
发文量
188
审稿时长
3 months
期刊介绍: Journal of Animal Ecology publishes the best original research on all aspects of animal ecology, ranging from the molecular to the ecosystem level. These may be field, laboratory and theoretical studies utilising terrestrial, freshwater or marine systems.
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