Experimental Evidence For Spatial Self-organization And Its Emergent Effects In Mussel Bed Ecosystems

Johan van de Koppel; Joanna C; Gascoigne; Guy Theraulaz; Max Rietkerk; Wolf M; Mooij; Peter M; J; Herman

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Experimental Evidence For Spatial Self-organization And Its Emergent Effects In Mussel Bed Ecosystems

机译：贻贝床生态系统中空间自组织及其突发效应的实验证据

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Spatial self-organization is the main theoretical explanation for the global occurrence of regular or otherwise coherent spatial patterns in ecosystems. Using mussel beds as a model ecosystem, we provide an experimental demonstration of spatial self-organization. Under homogeneous laboratory conditions, mussels developed regular patterns, similar to those in the field. An individual-based model derived from our experiments showed that interactions between individuals explained the observed patterns. Furthermore, a field study showed that pattern formation affected ecosystem-level processes in terms of improved growth and resistance to wave action. Our results imply that spatial self-organization is an important determinant of the structure and functioning of ecosystems, and it needs to be considered in their conservation.

机译：空间自组织是生态系统中规则或相干空间格局在全球范围内发生的主要理论解释。使用贻贝床作为模型生态系统，我们提供了空间自组织的实验演示。在均质的实验室条件下，贻贝会形成规则的模式，类似于野外的模式。从我们的实验得出的基于个体的模型表明，个体之间的相互作用解释了观察到的模式。此外，一项现场研究表明，模式形成影响了生态系统级过程，从而改善了生长并增强了对波浪作用的抵抗力。我们的结果表明，空间自组织是生态系统结构和功能的重要决定因素，在保护生态系统时需要加以考虑。

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来源
《Science》 |2008年第5902期|p.739-742|共4页
作者
Johan van de Koppel; Joanna C; Gascoigne; Guy Theraulaz; Max Rietkerk; Wolf M; Mooij; Peter M; J; Herman;
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作者单位

Spatial Ecology Department, the Netherlands Institute of Ecol ogy (NIOO-KNAW), Post Office Box 140, 4400 AC Yerseke, Netherlands;

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收录信息美国《科学引文索引》(SCI);美国《工程索引》(EI);美国《生物学医学文摘》(MEDLINE);美国《化学文摘》(CA);
原文格式 PDF
正文语种 eng
中图分类自然科学总论;
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专利

1. Alternative mechanisms alter the emergent properties of self-organization in mussel beds [J] . Liu Q.-X., Weerman E.J., Herman P.M.J., Proceedings of the Royal Society. Biological sciences . 2012,第1739期

机译：替代机制改变了贻贝床自组织的新兴特性
2. Patterning in Mussel Beds Explained by the Interplay of Multi-Level Selection and Spatial Self-Organization [J] . de Jager Monique, van de Koppel Johan, Weerman Ellen J., Frontiers in Ecology and Evolution . 2020,第2期

机译：贻贝床中的图案化由多级选择和空间自组织的相互作用解释
3. Biogenic gradients in algal density affect the emergent properties of spatially self-organized mussel beds [J] . Quan-Xing Liu, Ellen J. Weerman, Rohit Gupta Journal of the Royal Society Interface . 2014,第96期

机译：藻类密度的生物成因梯度影响空间自组织贻贝床的涌现特性
4. Eco-Hydrodynamic Simulation of the Dreissena Polymorpha (Zebra Mussel) in Fluvial Ecosystems. Application to the Study of the effects of Climate Change on Zebra Mussel Growth in Mequinenza Reservoir [C] . Seral P., Garcia S., Aliod R., World environmental and water resources congress . 2012

机译：河流生态系统中Dreissena polymorpha（斑马贻贝）的生态水动力模拟。在气候变化对梅奎恩扎水库斑马贻贝生长影响的研究中的应用
5. The effects of invasive zebra mussels (Dreissena polymorpha) on nitrogen cycling in freshwater ecosystems of the Midwestern United States. [D] . Bruesewitz, Denise A. 2008

机译：入侵斑马贻贝（Dreissena polymorpha）对美国中西部淡水生态系统中氮循环的影响。
6. Alternative mechanisms alter the emergent properties of self-organization in mussel beds [O] . Quan-Xing Liu, Ellen J. Weerman, Peter M. J. Herman, 2012

机译：替代机制改变了贻贝床自组织的新兴特性
7. The emergent properties of spatial self-organization:A study of patterned mussel beds [O] . Liu Quan-Xing 2013

机译：空间自组织的新兴性质：图案贻贝床研究

Experimental Evidence For Spatial Self-organization And Its Emergent Effects In Mussel Bed Ecosystems

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