Impacts on fisheries assessed by local ecological knowledge in a reservoir cascade in the lower São Francisco River, northeastern Brazil

Thiago D’Avilla,Marcelo F G Brito,Eraldo M Costa-Neto

doi:10.1590/1982-0224-2020-0156

Thiago D’Avilla, Marcelo F G Brito + Show 1 more

Open Access

https://doi.org/10.1590/1982-0224-2020-0156

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Abstract

Abstract Our study assessed the fishers’ perception (local ecological knowledge, LEK) concerning environmental impacts on fisheries and fish species in the final portion of Sub-Middle and Lower São Francisco. The river was divided into four areas where 107 fishers from 22 locations (4 states) were surveyed. The dam was the most significant impact on fisheries. The loss of connectivity, changing the environmental complexity, and its secondary effects (e.g., flow control, interruption of migratory routes) were determining factors. Other impacts were pointed out, such as pollution, macrophytes, overfishing, non-native species, and aquaculture. Among migratory species, Pseudoplatystoma corruscans and Salminus franciscanus have been absent from fishery catches for decades. Prochilodus argenteus records in fisheries are likely associated with migration routes to small tributaries. The environmental disturbance favored the establishment of non-native species such as Oreochromis niloticus, Cichla monoculus, and Metynnis lippincottianus along the studied section. Over the final portion of the São Francisco River, the more significant seawater intrusion changed the target species for fisheries activities. Thus, our data validate the importance of fishers’ LEK and reinforce the adverse effects of the reservoir cascade on fishing and migratory fishes.

Highlights

Dams are responsible for alterations in morphology and hydrology of rivers (Agostinho et al, 2007)
We address the fishers’ perception (LEK) concerning environmental impacts on fisheries and fish species in the highly modified final portion of Sub-Middle and Lower São Francisco
A portion of them (18%) reported having migrated from adjacent locations when they were younger, while 14% of respondents migrated from locations that were flooded during the construction of reservoirs of Luís Gonzaga and Xingó hydroelectric power plant (HPP)

Summary

Introduction

Dams are responsible for alterations in morphology and hydrology of rivers (Agostinho et al, 2007). The alterations caused by dams transform a dynamic system with high structural complexity into a homogeneous and less productive environment (Agostinho et al, 2007). These changes contribute to increased sedentary, generalist, and tolerant species and the decline of migratory species (Santos, 2010; Pelicice et al, 2018). Blocking migratory routes is another impact that, combined with the previous ones, can generate failures in recruiting and maintaining viable populations (Sato, Godinho, 2003; Pompeu et al, 2012; Pelicice et al, 2015)

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