Potential bottom-up and top-down control of large microzooplankton in response to contrasting productive scenarios in the tropical southwestern Atlantic

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS
Everton Giachini Tosetto , Sigrid Neumann-Leitão , Gabriel Bittencourt Farias , Pedro Augusto Mendes de Castro Melo , Fernando de Figueiredo Porto Neto , Claire Carré , Arnaud Bertrand
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Abstract

Large microzooplankton, comprising organisms generally between 64 and 200 μm, plays a significant trophic role in marine ecosystems as primary or secondary consumers. In oligotrophic systems such as the Tropical Southwestern Atlantic, where primary production is dominated by Cyanobacteria, they provide a pivotal link between the basis of food webs and higher trophic levels. In this region, seasonal variations in circulation and continental runoff and wind mixing induce heightened phytoplankton biomass during autumn when compared to a less productive scenario observed in spring, leading to increased abundances of higher trophic levels. In order to establish the connection between primary producers and these higher trophic levels, we investigated the dynamics of large microzooplankton abundance in response to variations in phytoplankton biomass across different systems in the Tropical Southwestern Atlantic. Our findings highlight the complex interactions between bottom-up and top-down control mechanisms that shape large microzooplankton assemblages in these ecosystems. The increase in primary production was accompanied by an observable increase in the abundances of large microzooplankton organisms over the continental shelf, thereby supporting the hypothesis of bottom-up control. In contrast, offshore, in the South Equatorial Current System, a lower abundance of large microzooplankton was observed in the more productive scenario. The intricate relationships between large microzooplankton and higher trophic levels, particularly planktonic cnidarians, appear to be a key driver of these contrasting patterns. The presence of voracious gelatinous predators in the offshore systems, suggests a scenario in which top-down predation may counteract the expected bottom-up response of large microzooplankton to increased phytoplankton biomass. This indicates the importance of considering the entire trophic web when analysing the responses of large microzooplankton to changes in primary production.

自下而上和自上而下控制大型微小浮游生物以应对西南大西洋热带地区截然不同的生产情景的可能性
大型微浮游生物通常由 64 到 200 微米之间的生物组成,在海洋生态系统中作为初级或次级消费者发挥着重要的营养作用。在以蓝藻为主的初级生产的低营养系统(如热带西南大西洋)中,大型微浮游生物是食物网基础和较高营养级之间的关键纽带。在这一地区,环流和大陆径流的季节性变化以及风的混合作用导致秋季浮游植物生物量增加,而春季浮游植物产量较低,从而导致较高营养级的丰度增加。为了建立初级生产者与这些较高营养级之间的联系,我们研究了热带西南大西洋不同系统中大型微型浮游动物丰度随浮游植物生物量变化而变化的动态。我们的研究结果突显了自下而上和自上而下的控制机制之间复杂的相互作用,这些机制塑造了这些生态系统中的大型微浮游生物群。在初级生产增加的同时,大陆架上大型微浮游生物的丰度也明显增加,从而支持了自下而上控制的假说。与此相反,在南赤道洋流系统的近海,在产量较高的情况下,大型微浮游生物的丰度较低。大型微浮游动物与较高营养级(尤其是浮游刺胞动物)之间错综复杂的关系似乎是造成这些对比模式的主要原因。近海系统中存在贪婪的胶状捕食者,这表明在这种情况下,自上而下的捕食可能会抵消大型微浮游生物对浮游植物生物量增加的自下而上的反应。这表明,在分析大型微型浮游动物对初级生产力变化的反应时,考虑整个营养网非常重要。
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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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