Anthropogenic Eutrophication Drives Major Food Web Changes in Mwanza Gulf, Lake Victoria

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
Leighton King, Giulia Wienhues, Pavani Misra, Wojciech Tylmann, Andrea Lami, Stefano M. Bernasconi, Madalina Jaggi, Colin Courtney-Mustaphi, Moritz Muschick, Nare Ngoepe, Salome Mwaiko, Mary A. Kishe, Andrew Cohen, Oliver Heiri, Ole Seehausen, Hendrik Vogel, Martin Grosjean, Blake Matthews
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Abstract

Discerning ecosystem change and food web dynamics underlying anthropogenic eutrophication and the introduction of non-native species is necessary for ensuring the long-term sustainability of fisheries and lake biodiversity. Previous studies of eutrophication in Lake Victoria, eastern Africa, have focused on the loss of endemic fish biodiversity over the past several decades, but changes in the plankton communities over this same time remain unclear. To fill this gap, we examined sediment cores from a eutrophic embayment, Mwanza Gulf, to determine the timing and magnitude of changes in the phytoplankton and zooplankton assemblages over the past century. Biogeochemical proxies indicate nutrient enrichment began around ~ 1920 CE and led to rapid increases in primary production, and our analysis of photosynthetic pigments revealed three zones: pre-eutrophication (prior to 1920 CE), onset of eutrophication with increases in all pigments (1920–1990 CE), and sustained eutrophication with cyanobacterial dominance (1990 CE–present). Cladoceran remains indicate an abrupt decline in biomass in ~ 1960 CE, in response to the cumulative effects of eutrophication and lake-level rise, preceding the collapse of haplochromine cichlids in the 1980s. Alona and Chydorus, typically benthic littoral taxa, have remained at relatively low abundances since the 1960s, whereas the abundance of Bosmina, typically a planktonic taxon, increased in the 1990s concurrently with the biomass recovery of haplochromine cichlid fishes. Overall, our results demonstrate substantial changes over the past century in the biomass structure and taxonomic composition of Mwanza Gulf phytoplankton and zooplankton communities, providing a historical food web perspective that can help understand the recent changes and inform future resource management decisions in the Lake Victoria ecosystem.

Abstract Image

人为富营养化导致维多利亚湖姆万扎湾食物网发生重大变化
要确保渔业和湖泊生物多样性的长期可持续性,就必须辨别人为富营养化和非本地物种引入背后的生态系统变化和食物网动态。以往对非洲东部维多利亚湖富营养化的研究主要集中在过去几十年中当地鱼类生物多样性的丧失上,但浮游生物群落在同一时期的变化仍不清楚。为了填补这一空白,我们研究了来自富营养化湖湾姆万扎湾的沉积物岩芯,以确定浮游植物和浮游动物群落在过去一个世纪中发生变化的时间和程度。生物地球化学代用指标表明,营养富集大约始于公元前 1920 年,并导致初级生产的快速增长,我们对光合色素的分析表明了三个区域:富营养化前(公元前 1920 年之前)、富营养化开始与所有色素的增加(公元前 1920 年至公元前 1990 年),以及富营养化持续与蓝藻占主导地位(公元前 1990 年至今)。桡足类遗骸表明,由于富营养化和湖泊水位上升的累积效应,生物量在西元 1960 年左右突然下降,而在此之前的 20 世纪 80 年代,单色笛鲷的数量也随之下降。自 20 世纪 60 年代以来,Alona 和 Chydorus(典型的底栖沿岸类群)的丰度一直保持在相对较低的水平,而 Bosmina(典型的浮游类群)的丰度在 20 世纪 90 年代随着单色慈鲷生物量的恢复而增加。总之,我们的研究结果表明,在过去的一个世纪里,姆万扎湾浮游植物和浮游动物群落的生物量结构和分类组成发生了巨大变化,提供了一个历史食物网视角,有助于理解维多利亚湖生态系统的近期变化并为未来的资源管理决策提供信息。
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
CiteScore
7.20
自引率
4.30%
发文量
567
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