Parasitism in the Network of Aquatic Food Web

博士 === 國立臺灣師範大學 === 生命科學研究所 === 99 === Parasites are ubiquitous in ecological communities but they haven’t been routinely included in food web studies until very recent. Using recently published data and the tool of network analysis, I elucidated features associated with the pattern of parasitism in...

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Main Author: 陳宣汶
Other Authors: 李壽先
Format: Others
Language:en_US
Published: 2010
Online Access:http://ndltd.ncl.edu.tw/handle/22341988438795522784
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spelling ndltd-TW-099NTNU51120012015-10-30T04:04:44Z http://ndltd.ncl.edu.tw/handle/22341988438795522784 Parasitism in the Network of Aquatic Food Web 水生食物網網絡中的寄生關係 陳宣汶 博士 國立臺灣師範大學 生命科學研究所 99 Parasites are ubiquitous in ecological communities but they haven’t been routinely included in food web studies until very recent. Using recently published data and the tool of network analysis, I elucidated features associated with the pattern of parasitism in food web networks. First, I showed that parasites are not only occurring in non-random fashion in food webs but also positively associated with the prominent network positions occupied by their hosts. Meanwhile, a host species with high parasite diversity tends to have a wide diet range, occupy a network position close to many prey species, or occupy a network position that can better accumulate resources from species at lower trophic levels, whereas a host species with higher vulnerability to predators, being at a network position close to many predatory species, or being involved in many different food chains, tends to serve as a good intermediate host in parasite transmission. Second, by conducting simulation experiments with different food web models and extinction scenarios, I demonstrated that the reduction in food web robustness after considering parasites is mainly contributed by the life cycle constrain of parasites. The finding further demonstrates that parasites are prone to secondary extinctions and their extinctions occur earlier than those involving non-parasite species. The evident vulnerability nature of parasite to species loss designates parasite a proper leading indicators of food web integrity. Lastly, with the extension of a previously developed methodology, a new approach is presented and used to quantify the interaction structure of a food web and consequently the topological importance of species when the food web is viewed as a signed digraph. This method is also capable to quantify the strength of inter-specific interaction as well as in what way species interact with each other after counting both direct and indirect cascades in both top-down and bottom-up directions. As it has the potential to quantify a wide range of ecological interactions, its further application on revealing the interaction structures between parasites and other functional groups in food web with parasites is evidently achievable. 李壽先 邵廣昭 2010 學位論文 ; thesis 129 en_US
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description 博士 === 國立臺灣師範大學 === 生命科學研究所 === 99 === Parasites are ubiquitous in ecological communities but they haven’t been routinely included in food web studies until very recent. Using recently published data and the tool of network analysis, I elucidated features associated with the pattern of parasitism in food web networks. First, I showed that parasites are not only occurring in non-random fashion in food webs but also positively associated with the prominent network positions occupied by their hosts. Meanwhile, a host species with high parasite diversity tends to have a wide diet range, occupy a network position close to many prey species, or occupy a network position that can better accumulate resources from species at lower trophic levels, whereas a host species with higher vulnerability to predators, being at a network position close to many predatory species, or being involved in many different food chains, tends to serve as a good intermediate host in parasite transmission. Second, by conducting simulation experiments with different food web models and extinction scenarios, I demonstrated that the reduction in food web robustness after considering parasites is mainly contributed by the life cycle constrain of parasites. The finding further demonstrates that parasites are prone to secondary extinctions and their extinctions occur earlier than those involving non-parasite species. The evident vulnerability nature of parasite to species loss designates parasite a proper leading indicators of food web integrity. Lastly, with the extension of a previously developed methodology, a new approach is presented and used to quantify the interaction structure of a food web and consequently the topological importance of species when the food web is viewed as a signed digraph. This method is also capable to quantify the strength of inter-specific interaction as well as in what way species interact with each other after counting both direct and indirect cascades in both top-down and bottom-up directions. As it has the potential to quantify a wide range of ecological interactions, its further application on revealing the interaction structures between parasites and other functional groups in food web with parasites is evidently achievable.
author2 李壽先
author_facet 李壽先
陳宣汶
author 陳宣汶
spellingShingle 陳宣汶
Parasitism in the Network of Aquatic Food Web
author_sort 陳宣汶
title Parasitism in the Network of Aquatic Food Web
title_short Parasitism in the Network of Aquatic Food Web
title_full Parasitism in the Network of Aquatic Food Web
title_fullStr Parasitism in the Network of Aquatic Food Web
title_full_unstemmed Parasitism in the Network of Aquatic Food Web
title_sort parasitism in the network of aquatic food web
publishDate 2010
url http://ndltd.ncl.edu.tw/handle/22341988438795522784
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