AUTHOR=Mosepele Ketlhatlogile , Kolding Jeppe , Bokhutlo Thethela , Mosepele Belda Quetina , Molefe Montshwari TITLE=The Okavango Delta: Fisheries in a fluctuating floodplain system JOURNAL=Frontiers in Environmental Science VOLUME=Volume 10 - 2022 YEAR=2022 URL=https://www.frontiersin.org/journals/environmental-science/articles/10.3389/fenvs.2022.854835 DOI=10.3389/fenvs.2022.854835 ISSN=2296-665X ABSTRACT=Wetlands are among the most productive systems globally characterized by dynamic interactions between terrestrial and aquatic habitats at different scales. These systems are the sources of valuable floodplain fisheries that are a major livelihood for riparian communities. Understanding the dynamics of these systems is important towards developing adaptive fisheries management paradigms that will facilitate access and sustainability to this cheap and yet high-quality food and nutrition. The Okavango Delta in Botswana is a large complex river-floodplain ecosystem, with a diverse biota, and high environmental heterogeneity due to periodic drying and flooding along a space and time gradient. It is characterized by a multi-species, multi-gear fishery adapted to the seasonal flood pulse. The Delta’s fish species assemblage undergoes seasonal variability driven by the flood regime. There is also a dynamic inter annual variability in the fish species assemblage, particularly between “good” and “bad” flood years. During the wet season, high flows increase connectivity in three dimensions (longitudinal, lateral, and vertical) which facilitates dispersal of aquatic biota, nutrients, and other material among successive locations in the riverscape. However, the dry season results in alteration or reduction in aquatic habitats available for fish reproduction. Similarly, low floods may reduce inputs of nutrient resources from the terrestrial environment that support aquatic food webs and can lead to community disruption, even to the point of local extirpation of stranded fish in fragmented ephemeral pools in the floodplain. Consequently, the periodicity, magnitude and predictability of flows are the major drivers of the systems’ capacity to sustain persistent fisheries production and other ecosystem services affecting human welfare. We provide evidence that identification of the processes that sustain production and biodiversity patterns is an essential step towards a better ecological understanding and natural resource management of river-floodplain systems.