Longitudinal patterns in an Arkansas River Valley stream: an Application of the River Continuum Concept

Burgad, Aaron A.; Clark, S.; Furr, M. E.; Lenard, Angela; Polett, M. E.; Robinson, Christopher D.; Sherwood, C. R.; Spooner, Greg; Stoughton, S. J.; Adams, Sally

doi:10.54119/jaas.2017.7126

Arkansas Academy of Science

2017

DOI: 10.54119/jaas.2017.7126

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Longitudinal patterns in an Arkansas River Valley stream: an Application of the River Continuum Concept

Aaron A. Burgad

S. Clark

M. E. Furr

et al.

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“…)。该概念提出后, 被广泛应用于预测河流系统的环境与水生生物群落的纵向变化 (Leclerc & DesGranges, 2005;Burgad et al, 2017;Jäger & Borchardt, 2018), 并在一些大型河流中得到验证 (Minshall et al, 1983); 但在一些建坝的河流中, 河流连续体的趋势并不明显 (Ward & Stanford, 1995)。河流连续体概念启发人们从河流生态系统的整体中看待堤坝阻隔等人为干扰 (Ward & Stanford, 1995), 对于理解河流纵向生态过程, 保护河流连通性和树立流域系统思维具有重要理论价值。功能群是在一定系统中占据相似生态位并对特定环境因素有着相同或相似响应的若干物种的集合 (Root, 1967;Halpern & Floeter, 2008)。鱼类的体型 (Pease et al, 2012)、形状 (Schaefer et al, 2011)、食性 (Vannote et al, 1980)和生活史策略 (Troia & Gido, 2014) 4种功能性状已被应用于河流纵向梯度研究。例如, 鱼类的大小和体型与运动能力相关: 小型鱼类灵活, 适应复杂的地形; 而大型鱼类有耐力, 适应较深的水域 (Hoeinghaus et al, 2007;Villéger et al, 2017)。纺锤形鱼类适应急流, 而侧扁形鱼类适应缓流 (Townsend & Hildrew, 1994) (Hay, 1994;Violle et al, 2007), 简化了从物种水平研究大型河流的生物群落的复杂性, 已被广泛用于研究不同尺度的生物与环境相互作用 (Woodward & Cramer, 1996)。大型河流往往跨越不同的气候和地貌区域, 不同空间尺度的环境因子对生物的影响不同 (Poff, 1997;Jackson et al, 2001) (Poff, 1997;McCluney et al, 2014) 可分为小型、中型和大型 (Garrison & Link, 2000); 形状可分为纺锤型、圆柱形和侧扁形(李新辉等, 2022); 食性可分为碎屑食性、草食性、无脊椎动物食性、鱼食性和杂食性 (Ibañez et al, 2009)…”

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Spatial differentiation of fish functional groups in the Yangtze River

Wang,

He,

Long

2023

Biodiversity Science

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Aim:The composition of fish in large rivers exhibits longitudinal variation along the river influenced by environmental gradients. The River Continuum Concept revolutionized the understanding of river ecosystems by linking changes in river macro-invertebrate trophic functional groups to the differentiation of nutrient sources between upstream and downstream areas. The concept offers a novel framework for studying the distribution patterns of river biomes at large scale, from upstream to downstream. In this study, a dataset encompassing 168 species of fish were used, covering the entire range from Zhimenda, the starting point of the Jinsha River, to the estuary. Functional groups were first classified based on criteria such as body sizes, shapes, feeding habits, and life-history strategies. Subsequently, their distribution patterns as well as their adaptability to environmental factors were investigated across different scales. Methods: A total of 14 functional groups and 59 combined function groups were classified, and 5 environmental factors were selected: elevation, mean temperature, mean annual temperature range, river width and river slope gradient. The distribution pattern of fish functional groups was analyzed using hierarchical clustering, while ordination analysis was applied to analyze the relationship between environmental factors and fish functional groups at different scales. Results:The results revealed a primary and secondary differentiation in the distribution of fish functional groups withinthe Yangtze River: the primary differentiation occurs at Longkaikou, acting as the dividing point, while the secondary differentiation is observed at Shigu, Longkaikou and Downstream of Baihetan Dam. Moving from the upstream to the downstream, fish body sizes transition from small to medium and large, body shapes shift from predominantly fusiform and cylindrical to include compressform appearances. Feeding habits evolve from primarily omnivorous to encompass a more diverse range of feeding functional groups, and life-history strategies transform from opportunistic to periodic and equilibrium strategies. The distribution pattern of fish functional groups is a result of adaptation to spatial differentiation of environmental factors at different scales. Across the larger scale of the entire Yangze River, elevation and temperature, which are associated with climatic features, serve as dominant factors; whereas, as the spatial scale of the study shrinks, the influence of river slope drop associated with topographic features, becomes more prominent and plays the most important role in the I-1 river section at medium scale. Conclusion:The distribution pattern of fish functional groups is direct outcome of the fish adaptation to environmental differentiation. Furthermore, the specific environment factors that determine the distribution of fish functional groups vary at different scales, consequently affecting the corresponding functional traits of the fish. This study contributes to our understanding of the river conti...

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unclassified

Spatial differentiation of fish functional groups in the Yangtze River

Wang,

He,

Long

2023

Biodiversity Science

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A framework for integrating stream ecosystem theories into spatial modeling of fish richness and assemblage structure

Yancy,

Santee,

Parker

et al. 2024

Freshwater Science

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Longitudinal patterns in an Arkansas River Valley stream: an Application of the River Continuum Concept

Cited by 2 publications

References 0 publications

Spatial differentiation of fish functional groups in the Yangtze River

Spatial differentiation of fish functional groups in the Yangtze River

A framework for integrating stream ecosystem theories into spatial modeling of fish richness and assemblage structure

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