Title
River dolphin distribution in regulated river systems: Implications for dry-season flow regimes in the Gangetic basin
Author(s)
Choudhary, S.;Dey, S.;Dey, S.;Sagar, V.;Nair, T.;Kelkar, N.
Published
2012
Publisher
Aquatic Conservation: Marine and Freshwater Ecosystems
Abstract
River flow regulation and fragmentation is a global threat to freshwater biodiversity, ecosystem processes, and associated human activities. Large dams in the Ganges river basin of the Indian subcontinent have severely altered natural flow regimes, particularly in the low-flow dry season. Altered flows could have negative impacts on endangered species such as the Ganges river dolphin Platanista gangetica. Habitat use by river dolphins was investigated in relation to river channel depth and morphology, over 332km of the flow-regulated Gandak River in India. Dolphin distribution patterns were compared across multiple spatial scales in the Gandak, Kosi, Chambal, Sone Rivers and the upper and lower sections of the Ganges main stem. Dolphin presence was recorded in 40% of segments in the Gandak river, with a best count of 257 (range 250-267) and average individual encounter rates at 0.75 dolphins km -1 (SD 0.89). Bayesian zero-inflated spatial models showed that river dolphin abundance was positively influenced by river depth, presence of meanders and corresponded closely with gillnet fishing. Minimum mid-channel depth requirements were estimated at 5.2m for dolphin adults and between 2.2 and 2.4m for mother-calf pairs. Adult dolphins showed highly similar habitat preferences across regulated or unregulated rivers, for depths >5m, and meandering channels. Dry-season habitat availability was reduced as the degree of flow regulation increased across rivers, mainly owing to loss of lateral and longitudinal channel connectivity. Overall encounter rates were reduced from >3km -1 in less regulated stretches, to <0.3km -1 in regulated rivers. Clustering of dolphins in deep pools increased along the gradient of river flow reduction, with dolphins almost absent from intervening segments because of low flow rates. These results indicate the importance of maintaining adequate dry-season flows to ensure river habitat availability and connectivity for dolphins. © 2012 John Wiley & Sons, Ltd.
Keywords
Bayesian zero-inflated spatial models;Channel morphology;Flow regulation;Gandak River;Ganges river dolphins;Gangetic basin;River depth
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PUB13558