The effects of soil erosion on chironomid assemblages in Lugu Lake over the past 120 years
The effects of soil erosion on chironomid assemblages in Lugu Lake over the past 120 years
Lakes in Yunnan Province, SW China, have been subjected to increased environmental stress over the last century. In order to assess the impacts of these stresses on the biota, a sediment core was collected from Lugu Lake covering the past 120 years, and detailed chemical, biological (subfossil chironomids), and physical analyses of the lake sediments were undertaken. The analyses indicated consistent trends of increased soil erosion since the early 1970s associated with significant changes in chironomid assemblages, which occurred simultaneously with the sedimentological proxies. A redundancy analysis (RDA) using a range of sedimentary proxies indicated that the shifts in the chironomid communities were mainly attributable to soil erosion. Constant soil erosion caused dramatic reductions in the available organic materials and large increases in fine sediments, leading to changes in the chironomid fauna and reduced chironomid abundance. The chironomid succession revealed that Procladius, the likely top predator in the chironomid community food chain, decreased in abundance under the impact of soil erosion, whereas the proportion of small forms of filter feeders, represented by Tanytarsus mendax-type, increased rapidly. Due to the loss of suitable habitats, the population of some bottom collector-gatherers (e.g., Polypedilum nubeculosum-type) decreased sharply. The results of this study suggest that increased catchment soil erosion may seriously impact benthic communities and potentially alter ecosystem functioning.
chironomids, lake ecosystem change, lugu lake, redundancy analysis, soil erosion
165-172
Zhang, Enlou
53b50c45-bb12-4d5f-86e4-e656d44bcfa1
Tang, Hongqu
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Cao, Yanmin
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Langdon, Peter
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Wang, Rong
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Yang, Xiangdong
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Shen, Ji
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June 2013
Zhang, Enlou
53b50c45-bb12-4d5f-86e4-e656d44bcfa1
Tang, Hongqu
dcc8ba5e-7dca-492f-86a5-92611ba669b4
Cao, Yanmin
0f6b2b8f-80eb-447d-9f7e-35d163b98ce9
Langdon, Peter
95b97671-f9fe-4884-aca6-9aa3cd1a6d7f
Wang, Rong
fd4ca2d0-78f2-40c2-aad1-355e7f3f3022
Yang, Xiangdong
7ecb5c8e-22cb-4f65-829d-8b3442dc6529
Shen, Ji
e46a99fe-42de-4d1f-a225-af1d7cb2a3d1
Zhang, Enlou, Tang, Hongqu, Cao, Yanmin, Langdon, Peter, Wang, Rong, Yang, Xiangdong and Shen, Ji
(2013)
The effects of soil erosion on chironomid assemblages in Lugu Lake over the past 120 years.
International Review of Hydrobiology, 98 (3), .
(doi:10.1002/iroh.201301468).
Abstract
Lakes in Yunnan Province, SW China, have been subjected to increased environmental stress over the last century. In order to assess the impacts of these stresses on the biota, a sediment core was collected from Lugu Lake covering the past 120 years, and detailed chemical, biological (subfossil chironomids), and physical analyses of the lake sediments were undertaken. The analyses indicated consistent trends of increased soil erosion since the early 1970s associated with significant changes in chironomid assemblages, which occurred simultaneously with the sedimentological proxies. A redundancy analysis (RDA) using a range of sedimentary proxies indicated that the shifts in the chironomid communities were mainly attributable to soil erosion. Constant soil erosion caused dramatic reductions in the available organic materials and large increases in fine sediments, leading to changes in the chironomid fauna and reduced chironomid abundance. The chironomid succession revealed that Procladius, the likely top predator in the chironomid community food chain, decreased in abundance under the impact of soil erosion, whereas the proportion of small forms of filter feeders, represented by Tanytarsus mendax-type, increased rapidly. Due to the loss of suitable habitats, the population of some bottom collector-gatherers (e.g., Polypedilum nubeculosum-type) decreased sharply. The results of this study suggest that increased catchment soil erosion may seriously impact benthic communities and potentially alter ecosystem functioning.
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e-pub ahead of print date: 21 May 2013
Published date: June 2013
Keywords:
chironomids, lake ecosystem change, lugu lake, redundancy analysis, soil erosion
Organisations:
Palaeoenvironment Laboratory (PLUS)
Identifiers
Local EPrints ID: 354013
URI: http://eprints.soton.ac.uk/id/eprint/354013
ISSN: 1434-2944
PURE UUID: 9a055156-52a2-4c1c-82d0-d0b928d48a3f
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Date deposited: 28 Jun 2013 08:57
Last modified: 15 Mar 2024 02:57
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Author:
Enlou Zhang
Author:
Hongqu Tang
Author:
Yanmin Cao
Author:
Rong Wang
Author:
Xiangdong Yang
Author:
Ji Shen
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