Smithsonian Environmental Research Center, Smithsonian Institution, Edgewater, Maryland 21037, USA.
Ann Rev Mar Sci. 2010;2:395-417. doi: 10.1146/annurev.marine.010908.163809.
Mangroves are an ecological assemblage of trees and shrubs adapted to grow in intertidal environments along tropical coasts. Despite repeated demonstration of their economic and societal value, more than 50% of the world's mangroves have been destroyed, 35% in the past two decades to aquaculture and coastal development, altered hydrology, sea-level rise, and nutrient overenrichment. Variations in the structure and function of mangrove ecosystems have generally been described solely on the basis of a hierarchical classification of the physical characteristics of the intertidal environment, including climate, geomorphology, topography, and hydrology. Here, we use the concept of emergent properties at multiple levels within a hierarchical framework to review how the interplay between specialized adaptations and extreme trait plasticity that characterizes mangroves and intertidal environments gives rise to the biocomplexity that distinguishes mangrove ecosystems. The traits that allow mangroves to tolerate variable salinity, flooding, and nutrient availability influence ecosystem processes and ultimately the services they provide. We conclude that an integrated research strategy using emergent properties in empirical and theoretical studies provides a holistic approach for understanding and managing mangrove ecosystems.
红树林是一种生态组合的树木和灌木,适应在热带沿海的潮间带环境中生长。尽管一再证明了它们的经济和社会价值,但世界上超过 50%的红树林已经被破坏,其中 35%是在过去二十年中因水产养殖和沿海开发、水文变化、海平面上升和营养物质过度富集而遭到破坏。红树林生态系统的结构和功能的变化通常仅根据潮间带环境的物理特征的分层分类来描述,包括气候、地貌、地形和水文学。在这里,我们使用多层次的涌现特性的概念,在一个分层框架内,回顾专门适应和极端特征可塑性之间的相互作用如何导致区分红树林生态系统的生物复杂性,这些特征使红树林能够耐受可变的盐度、洪水和养分供应。影响生态系统过程并最终影响它们提供的服务的特征。我们得出结论,使用涌现特性的综合研究策略,在经验和理论研究中提供了一种整体的方法来理解和管理红树林生态系统。
