Community Ecology

Abstract

Community ecology explores the complex interactions among diverse organisms inhabiting a shared space and how they shape their environment. This chapter delves into the unique characteristics, structures, and dynamics of communities. Species diversity in a community is influenced by geographical, developmental, and physical factors, with certain species prevailing in larger proportions. Dominant species, crucial in controlling energy flow and influencing the environment, are identified using the index of dominance. Keystone species play pivotal roles in affecting multiple species and their ability to thrive in the ecosystem. Invasive species, introduced from outside regions, can disrupt the ecological balance. Communities exhibit spatial and vertical structural arrangements, represented by pattern diversity and stratification. Aquatic communities, such as ponds and lakes, have distinct zonal divisions, while terrestrial communities display different forest structures. Ecological succession is a dynamic process leading to the evolution of stable and diverse communities. It can be categorized into various types based on initiating causes, such as primary and secondary succession, or different aspects like autotrophic, heterotrophic, and cyclic successions. Successional pathways may deviate from presumed paths due to site-specific conditions, leading to deflected successions or disclimax communities. Various types of ecological successions, including lithosere, hydrosere, psammosere, halosere, and xerosere, reflect the diverse evolutionary journeys of habitats. Ecosystem characteristics undergo changes during successions, impacting biodiversity, community composition, and edaphic properties like soil nutrients and organic matter content. Disturbances in forest ecosystems lead to phases of recovery, as described by the biomass accumulation model proposed by Bormann and Likens.