Abstract
The effects of hydrological disturbances by flooding and drought on the diversity and stability in a temporary river fish community in the Brazilian semiarid region were analyzed over the 1996 hydrological cycle. Twelve collections of fishes were made during the wet and dry phases, and 789 individuals of 16 species were collected. Diversity was measured using Simpson's Index (S) and community stability was analyzed by the variation in abundance using Kendall's W concordance test. Fish diversity in the Taperoa river was subjected to hydrological disturbances by flooding and drought. During the wet phase the diversity was higher (S = 0.855) than during the dry phase (S = 0.771). The community was considered stable during the whole annual hydrological cycle (W = 0.418 p < 0.001), but a higher stability in the community was found during the dry phase. During the dry phase the number of dominant species was smaller than during the wet phase.
Highlights
Measures of stability are designed to give information about the behaviour of systems subjected to various sorts of disturbances (PIANKA, 1994)
Intermittent stream fish communities exposed to disturbance caused by floods and drought have to persist in these environments which are characterized by fluctuating flows (MEFFE & MINCKLEY, 1987)
In 1996 the Taperoá river was characterized by two different hydrological phases: (1) the wet phase, with a continuous 3-month surface water flow and (2) the dry phase, when surface flow ceased and some isolated pools remained in the main channel
Summary
Measures of stability are designed to give information about the behaviour of systems subjected to various sorts of disturbances (PIANKA, 1994). Disturbance is thought to play an important role in the structure of communities of stream fishes (KARR & FREEMARK, 1985; RESH et al, 1988; POFF & WARD, 1990). Intermittent stream fish communities exposed to disturbance caused by floods and drought have to persist in these environments which are characterized by fluctuating flows (MEFFE & MINCKLEY, 1987). Numerous different concepts of stability have been applied to populations and communities, and the debate regarding stability of stream fish fauna or local assemblages is not new (PIANKA, 1994; MATTHEWS, 1998). MEFFE & MINCKLEY (1987) define stability.
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