Volume 32 Issue 2
Mar.  2011
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YANG Yong-Hong, YANG Jun-Xing, PAN Xiao-Fu, ZHOU Wei, YANG Mei-Lin. Fishery resource protection by artificial propagation in hydroelectric development: Lixianjiang River drainage in Yunnan as an example. Zoological Research, 2011, 32(2): 188-195. doi: 10.3724/SP.J.1141.2011.02188
Citation: YANG Yong-Hong, YANG Jun-Xing, PAN Xiao-Fu, ZHOU Wei, YANG Mei-Lin. Fishery resource protection by artificial propagation in hydroelectric development: Lixianjiang River drainage in Yunnan as an example. Zoological Research, 2011, 32(2): 188-195. doi: 10.3724/SP.J.1141.2011.02188

Fishery resource protection by artificial propagation in hydroelectric development: Lixianjiang River drainage in Yunnan as an example

doi: 10.3724/SP.J.1141.2011.02188
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  • Author Bio:

    杨永宏

  • Corresponding author: YANG Jun-Xing
  • Received Date: 2010-10-14
  • Rev Recd Date: 2011-01-26
  • Publish Date: 2011-04-22
  • Hydroelectric developments can result in a number of negative environmental consequences. Conservation aquaculture is a branch of science derived from conservation and population recovery studies on endangered fishes. Here we discuss the impacts on fishes caused by hydropower projects in Lixianjiang, and evaluate effects and problems on the propagation of Parazacco spilurus, Hemibagrus pluriradiatus, Neolissochilus benasi and Semilabeo obscurus. A successful propagation project includes foraging ecology in fields, pond cultivation, juvenile fish raising, prevention and curing on fish disease, genetic management, artificial releasing and population monitoring. Artificial propagation is the practicable act on genetic intercommunication, preventing population deterioration for fishes in upper and lower reaches of the dam. For long-term planning, fish stocks are not suitable for many kind of fishes, but can prevent fishes from going extinct in the wild. Basic data collection on fish ecology, parent fish hunting, prevention on fish disease are the most important factors on artificial propagation. Strengthening the genetic management of stock population for keeping a higher genetic diversity can increase the success of stock enhancement. The works on Lixianjiang provide a new model for river fish protection. To make sure the complicated project works well, project plans, commission contracts, base line monitoring and techniques on artificial reproduction must be considered early. Last, fishery conservation should be considered alongside location development.
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