营养状况导致南极贮脂桡足类生理学的空间差异。

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-09-02 DOI:10.1002/ece3.70210
Cory A. Berger, Deborah K. Steinberg, Ann M. Tarrant
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引用次数: 0

摘要

在高纬度海洋中,富含脂质的桡足类是初级生产者与较高营养级之间的重要纽带。这些浮游动物可以利用短暂的浮游植物繁殖来促进发育和繁殖。然而,我们对这些动物的生理状况如何随食物供应等环境因素而变化的了解十分有限。由于高度平流,生理可塑性而非局部适应性很可能是造成区域内生理差异的主要原因。我们利用转录组学和其他生理指标来了解两种桡足类(Calanoides acutus 和 Calanus propinquus)如何在南极半岛西部的环境梯度上发生变化。对于以草食性为主的 C. acutus,取样地点之间的生理差异似乎是由摄食状态驱动的,基因表达差异表明调控脂质代谢、繁殖、有氧代谢和蛋白质翻译的基因表达不同。对于杂食性更强的普氏拟鲤,生理机能和基因表达在不同地点的分离并不明显,在任何地点都极少表现出食物匮乏的迹象,而且与叶绿素的关系也比普氏拟鲤弱。通过将这些结果与同时进行的饥饿实验进行比较,我们发现基因表达的空间变化反映了食物供应的短期差异(尤其是对尖嘴鱼而言),我们还发现了一些基因的表达表明了最近的摄食状况。进一步研究食物供应、桡足类动物生理和种群动态之间的关系,最终将提高我们预测桡足类种群如何应对南极半岛西部生态系统快速变化的环境条件的能力。
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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Nutritional condition drives spatial variation in physiology of Antarctic lipid-storing copepods

Lipid-rich copepods form an essential link between primary producers and higher trophic levels in high-latitude oceans. These zooplankton can take advantage of ephemeral phytoplankton blooms to fuel development and reproduction. However, we have limited understanding of how the physiological condition of these animals varies in relation to environmental factors such as food availability. Due to high advection, it is likely that physiological plasticity, rather than local adaptation, is primarily responsible for physiological differences within a region. We use transcriptomics and other physiological metrics to understand how two species of copepods (Calanoides acutus and Calanus propinquus) vary across environmental gradients along the West Antarctic Peninsula. For the primarily herbivorous C. acutus, physiological separation between sampling locations appears to be driven by feeding status, and gene expression differences indicate differential expression of genes regulating lipid metabolism, reproduction, aerobic metabolism, and protein translation. For the more omnivorous C. propinquus, physiology and gene expression did not segregate as clearly by location, showed minimal signs of food deprivation at any location, and had a weaker relationship with chlorophyll compared to C. acutus. By comparing these results with concurrent starvation experiments, we find that spatial variation in gene expression reflects short-term differences in food availability (particularly for C. acutus), and we identify genes whose expression indicates recent feeding status. Further examination of the relationships between food availability, copepod physiology, and population dynamics will ultimately improve our capacity to predict how copepod populations will respond to rapidly changing environmental conditions in the West Antarctic Peninsula ecosystem.

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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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