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| 作者 | Hsu, Jung-Ya;Chou, Chun-Chia;Liao, Chen-Pan;Lin, Jhan-Wei;Cheng, Cheng-Chung;Huang, Wen-San;Kwak, Mackenzie L.;Lin, Si-Min |
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| 出版日期 | 202310 |
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| 著作名稱 | Negative density-regulated contest performance promotes conflict resolution in a tree lizard
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| 刊名 | Functional Ecology |
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| 卷 | 00 |
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| 頁數 | 1-12 |
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| 主題 | 動物;動物 |
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| 摘要 | 1.Territoriality is a behavioural adaptation resulting from intraspecific competition and reflects the strategy of how individuals share limited resources in the environment. As a consequence, territorial contests and levels of aggressiveness are strongly influenced by population density.
2.The positive relationship between population density and the intensity of intraspecific competition may appear straightforward. However, empirical evidence regarding this association remains inconclusive. This ambiguity may be attributed to studies that have predominantly focussed on specific fight-associated traits while overlooking potential interactions between multiple phenotypic characteristics and population dynamics.
3.To examine the effects of population density and other ecological factors on the variation in fight behaviour as well as fight-associated morphology and performance. We conducted population surveys and behavioural experiments using the Swinhoe's tree lizard across eight populations.
4.Our findings revealed that males from higher density populations tended to engage in less intense fights and exhibited a weaker resident advantage in fights, which coincided with our findings on lower rates of injuries, weaker bite forces and smaller body sizes (and vice versa). Male-specific variation in fight behaviour, morphology and performance along a density gradient suggests different evolutionary equilibria in territoriality influenced by local costs and benefits.
5.Our study supports the significant role of negative density dependence as a fundamental regulator of eco-evolutionary dynamics. The observed phenotypic variation emphasizes the importance of ecological and social factors in shaping ontogenetic growth and life-history strategies. Our findings provide a basis for future investigations into pace-of-life syndromes and shed light on how phenotypic adaptation may shape population structure. |
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| DOI | https://doi.org/10.1111/1365-2435.14444 |
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| 系統號 | NO000006768 |
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