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Network Biology, 2015, 5(3): 95-112
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Some topological properties of arthropod food webs in paddy fields of South China

LiQin Jiang¹, WenJun Zhang^1,2, Xin Li³
¹School of Life Sciences, Sun Yat-sen University, Guangzhou 510275, China
²International Academy of Ecology and Environmental Sciences, Hong Kong
³College of Plant Protection, Northwest A and F University, Yangling 712100, China; Yangling Institute of Modern Agricultural Standardization, Yangling 712100, China

Received 29 August 2014;Accepted 6 October 2014;Published online 1 September 2015
IAEES

Abstract
To explore the topological properties of paddy arthropod food webs is of significance for understanding natural equilibrium of rice pests. In present study, we used Pajek software to analyze the topological properties of four full arthropod food webs in South China. The results showed that predators were significantly abundant than preys, and the proportion of predators to preys (3.07) was significantly higher than previously reported by Cohen in 1977 (1.33). In the food webs, the number of top species was the largest, accounted for about 50% of the total. The number of intermediate-intermediate links was far greater than the other three links. The average degree of paddy arthropod food webs is 6.0, 6.04, 5.74 and 7.75, respectively. Average degree and link density did not change significantly with the change of the number of species, but the connectance reduced significantly. In the paddy ecosystems, the increase of species diversity does not lead to an increase proportionally to the links among species. The link density and connectance of food webs of early season rice field were less than that from late season rice field. Cycles of all food webs cycles were 0. The maximum chain length of the basal species was 3, and the largest chain length of the top species was typically 2 or 3. Neutral insects were found to play a very important role in the paddy ecosystem. Nilaparvata lugens and Sogatella furcifera were found to be the dominant species of rice pests. Pardosa pseudoannulata, Tetragnatha maxillosa, Pirata subparaticus, Arctosa stigmosa and Clubiona corrugate were identified as the important predatory species that may effectively control the pest population. The keystone species calculated from keystone index and network analysis are analogous, indicating either keystone index or network analysis can be used in the analysis of keystone species.

Keywords food webs;topological properties;paddy ecosystems;arthropods;natural enemies.

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