中尺度和气候环境变异推动洪堡洋流系统磷虾群落变化

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-06-15 DOI:10.1016/j.jmarsys.2024.103998
Macarena Díaz-Astudillo , Ramiro Riquelme-Bugueño , Gonzalo S. Saldías , Jaime Letelier
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引用次数: 0

摘要

大戟科(或称 "磷虾")在东部边界上升流系统的食物网中扮演着至关重要的角色。磷虾与生态和商业上重要的物种之间相互捕食,这凸显了了解磷虾在不同时空尺度上变化的重要性。在洪堡洋流系统(HCS)中,很少有研究涉及磷虾群落的时空变异性及其与气候和当地环境驱动因素的联系。我们利用浮游动物、CTD-O 数据以及 2010-2017 年秋季和春季的卫星环境数据,研究了智利北部沿海地区竹节虫多样性的模式和变异性。该群落的多样性和均匀度较低,其中以特有物种 Euphausia mucronata 数量最多。环境变异显示出两种主要的变异模式:(1)与上升流相关的最小含氧带(OMZ)深度和温度变化;(2)与厄尔尼诺/南方涛动驱动的水体变化相关的盐度年际变异。多样性指数和群落结构在跨岸方向和纬度上都有很大波动。总体模式显示,离岸和向南方向的多样性较高,而沿海地带低温、浅水 OMZ 条件下的物种较少。在 2013 年和 2016 年海洋热浪以及 2015-2016 年厄尔尼诺期间,亚热带水团向南平流,导致盐度和温度上升,磷虾总丰度下降。然而,厄尔尼诺/南方涛动的变化并未对物种组成产生重大影响。群落结构的变化是由物种丰度的波动而不是物种的存在引起的,因为在整个研究期间,丰度最高的物种在群落中占主导地位。这些结果表明,高纬度海区磷虾群落对气候扰动具有很强的适应能力,与上升流相关的梯度是该生态系统中食叶虫种群变化的主要来源。
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Mesoscale and climate environmental variability drive krill community changes in the Humboldt Current System

Euphausiids (or “krill”) play a crucial role in the food webs of eastern boundary upwelling systems. Their inter-specific predatory interactions with ecologically and commercially important species highlights the importance of understanding krill variability at different temporal and spatial scales. In the Humboldt Current System (HCS), few studies have addressed the spatio-temporal variability of krill communities and their link with climate and local environmental drivers. We studied the patterns and variability of euphausiid diversity in the coastal area off northern Chile, using zooplankton and CTD-O data, and satellite environmental data from the falls and springs of 2010–2017. The community showed low diversity and evenness, with the endemic species Euphausia mucronata being the most abundant. The environmental variance showed 2 main modes of variability: (1) upwelling-associated changes in the depth of the oxygen minimum zone (OMZ) and in temperature, and (2) interannual variability in salinity, associated with ENSO-driven water-mass changes. The diversity indices and community structure showed large fluctuations in the cross-shore direction, and with latitude. The general pattern showed higher diversity offshore and southward, with few species in the low temperature, shallow OMZ conditions of the coastal band. During the 2013 and 2016 marine heatwaves and the 2015-2016 El Niño, the Subtropical Water Mass was advected southward, causing an increase in salinity and temperature, and a decrease in total krill abundance. However, ENSO variability did not significantly affect the species composition. The changes in community structure were caused by fluctuations in species abundance rather than species presence, as the most abundant species dominated the community throughout the study period. These results indicate that the krill communities of the HCS are highly resilient to climate perturbations, with upwelling-associated gradients being the primary source of variability for euphausiid populations in this ecosystem.

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ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
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2.10%
发文量
464
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