An alternative to dolphin oil as a fish attractant in the Ganges River system: conservation of the Ganges River dolphin

The Ganges River Dolphin Platanista gangetica has been classified as Endangered in the IUCN Red List of Threatened Species. The IUCN changed its status from ‘Vulnerable’ to ‘Endangered’ in 1996 as the species population was declining in its entire distribution range. It is, however, classified as ‘Critically Endangered’ in Nepal. Historically, the freshwater cetacean has been documented in the Karnali, Koshi, Narayani, and Mahakali basins. With their population and distribution range in decline, the Ganges River Dolphin (GRD) is no longer found in the Mahakali River system, which demarcates and traverses the Western border of India and Nepal. This study examines the status and distribution of the GRD in the river systems of Nepal during the monsoon of 2016. The national dolphin population survey was conducted in the three largest river basins in Nepal—Karnali, Narayani, and Koshi. Each of the three basins represent the extreme upstream limit of the GRD distribution in Ganges River basin. The national population survey included both a boat-based survey and shore-based synchronized counting in each of the three river systems. Fifty-two (Best-High-Low: 52-61-50) dolphins were counted during the entire nationwide survey, conducted in July–August, 2016. Researchers gathered social-data from locals residing alongside the observed basin, giving priority to artisanal fishers and those subsisting to some degree from the rivers known to host the river dolphin. A questionnaire survey of ninety-two residents from riparian villages adjacent to the GRD hotspots sheds light on the local perspectives towards dolphin conservation coupled with an assessment of their socio-economic status; artisanal fishing practices; and their awareness of dolphin conservation. According to the survey, notable threats to dolphin conservation are prey depletion; non-availability of suitable habitat; habitat fragmentation and a low level of awareness. Based on the counting outcomes and social survey, recommendations have been put forward for the conservation of this species.

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Arsenic contamination of groundwater in the Kathmandu Valley, Nepal, as a consequence of rapid erosion

Journal of Nepal Geological Society ◽

10.3126/jngs.v40i0.23595 ◽

2010 ◽

Vol 40 ◽

pp. 49-60 ◽

Cited By ~ 1

Author(s):

Steven H. Emerman ◽

Tista Prasai ◽

Ryan B. Anderson ◽

Mallory A. Palmer

Keyword(s):

Geometric Mean ◽

Sulfide Oxidation ◽

River System ◽

Flood Plain ◽

Kathmandu Valley ◽

Ganges River ◽

Transition Elements ◽

Dug Wells ◽

The Ganges ◽

System Water

Elevated levels of arsenic (As) in groundwater in the flood plain of the Ganges River have been well-documented over the past decades. The objective of this study was to measure As and the transition elements normally associated with As in the Kathmandu Valley in Nepal, a heavily populated tectonic valley in the upper reaches of the Ganges River system. Water samples were collected from six shallow tubewells (depth < 50 m), eight deep tubewells and 13 dug wells and stone spouts. Electrical conductivity, temperature and pH were measured on-site and concentrations of As, Fe, Cu, Ni, Co, Mn, Zn and Cr were measured with a spectrophotometer. Five tubewells and four dug wells had As levels exceeding the Nepal Interim Standard (As = 0.05 mg/L). There was no statistically significant clustering of As levels either with depth or horizontal location. Arsenic was uncorrelated with either Fe (R2 = 0.096), Mn (R2 = 0.0004) or any combination of transition elements (R2 < 0.083), which is inconsistent with both the reduction-dissolution and the sulfide oxidation models for As release. The geometric mean As level of groundwater (As = 0.015 mg/L) was indistinguishable from the geometric mean As level of surface water (As = 0.013 mg/L) obtained from 48 river samples from the Kathmandu Valley in a previous study. We are suggesting that elevated groundwater As results not from subsurface redox conditions, but from losing streams with elevated As, which is a consequence of rapid erosion caused by a combination of monsoon climate, tectonic uplift and deforestation.

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Characterization of artisanal fisheries in Nepal and potential implications for the conservation and management of Ganges River Dolphin (Platanista gangetica gangetica)

10.7287/peerj.preprints.1197 ◽

2015 ◽

Author(s):

Shambhu Paudel ◽

Juan C Levesque ◽

Camilo Saavedra ◽

Cristina Pita ◽

Prabhat Pal

Keyword(s):

Anthropogenic Activities ◽

Fishing Effort ◽

Main Channel ◽

Artisanal Fisheries ◽

Ganges River ◽

River Systems ◽

River Dolphin ◽

Main River ◽

Local Species ◽

The Ganges

The Ganges River dolphin (Platanista gangetica gangetica) (GRD) is classified as one of the most endangered of all cetaceans in the world and the second scarcest freshwater cetacean. The population is estimated to be less than 2,000 individuals. In Nepal’s Narayani, Sapta Koshi, and Karnali river systems, survival of GRD continues to be threatened by various anthropogenic activities, such as dam construction and interactions with artisanal fisheries. A basic description of the geographic scope, economics, and types of gear used in these fisheries would help managers understand the fishery-dolphin interaction conflict and assist with developing potential solutions to reduce interactions between GRD and local fisheries in Nepal. The main purpose of the study was to collect fishery and socio-economic information by conducting interviews with local fishermen in the Narayani, Sapta Koshi, and Karnali river systems. Based on interviews (n = 163), 79 percent of Nepalese fishermen indicated fishing for local species (e.g., mullet [Rhinomugil corsula] or siloroid catfish [Bagarius bagarius]) was their primary form of income. Fishermen reported fishing effort was greater in summer than winter; greatest in the afternoon (1430 hrs ± 0.27) and during low water level conditions; and gear was set 4.8 ± 0.2 days/week. Fishermen reported using eight different types of monofilament nets (gillnets and cast nets). Sixty percent used gillnets less than 10 m long, and less than one third preferred gillnets between 10 and 100 m long; a few used gillnets longer than 100 m. Fishermen usually set their gear close to their village, and about 50 percent preferred to fish in tributaries followed by the main channel behind sandbars and islands, and the main channel near a bank. Fishermen reported seeing more GRD in the main river stem in winter. In summer, fishermen spotted more GRD in tributaries. Most fishermen told us they believed education, awareness, and changing occupations were important for GRD conservation, but they indicated that occupational options were currently limited in Nepal. Nepalese fishermen acknowledged that fisheries posed a risk to GRD, but they believed water pollution, and dam/irrigation development were the greatest threats.

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Stable Strontium Isotopic Compositions of River Water, Groundwater and Sediments From the Ganges–Brahmaputra–Meghna River System in Bangladesh

Frontiers in Earth Science ◽

10.3389/feart.2021.592062 ◽

2021 ◽

Vol 9 ◽

Author(s):

Toshihiro Yoshimura ◽

Shigeyuki Wakaki ◽

Hodaka Kawahata ◽

H. M. Zakir Hossain ◽

Takuya Manaka ◽

...

Keyword(s):

River Water ◽

Chemical Weathering ◽

Drainage Basin ◽

Dissolution Kinetics ◽

River System ◽

Ganges River ◽

Brahmaputra River ◽

Terrestrial Water ◽

Stable Strontium ◽

The Ganges

The Sr isotopic composition of rivers and groundwaters in the Bengal Plain is a major contributor to the global oceanic Sr inventory. The stable strontium isotope ratios (δ88Sr) provide a new tool to identify chemical weathering reactions in terrestrial water. In this study, we investigated the spatiotemporal variations of δ88Sr in samples of river water, bedload sediment, and groundwater collected from the Ganges–Brahmaputra–Meghna drainage basin in Bangladesh, which is known to strongly influence the 87Sr/86Sr ratio in seawater. The average δ88Sr values of waters of the Ganges, Brahmaputra, and Meghna rivers were 0.269, 0.316, and 0.278‰, respectively. Our data showed little difference between seasons of high and low discharge. The δ88Sr values measured in sequential leaching fractions of sediments varied from –0.258 to 0.516‰ and were highest in the silicate fraction, followed in turn by the carbonate fraction and the exchangeable fraction. Both 87Sr/86Sr and δ88Sr of these waters are primarily controlled by the inputs of Sr in weathering products from the Bengal Plain and Sr from the Himalayan rivers (Ganges and Brahmaputra). Values of δ88Sr and Sr/Ca were higher in the Brahmaputra River than in the Ganges River, a difference we attribute to greater input from silicate weathering. The variations of δ88Sr and 87Sr/86Sr were greater in groundwater than in river waters. Mineral sorting effects and dissolution kinetics can account for the large scatter in 87Sr/86Sr and δ88Sr values. The depth profile of δ88Sr showed wide variation at shallow depths and convergence to a narrow range of about 0.31‰ at depths greater than 70 m, which reflects more complete equilibration of chemical interactions between groundwater and ambient sediments owing to the longer residence time of deeper groundwater. We found that δ88Sr values in the groundwater of Bangladesh were almost identical to those of river water from the lower Meghna River downstream of its confluence with the Ganges–Brahmaputra river system, thus confirming that the δ88Sr composition of the groundwater discharge to the Bay of Bengal is very similar to that of the river discharge.

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Introduction of balloon census for acoustic and visual census of the Ganges river dolphins (Platanista gangetica) that inhabit in a long tract of the Ganges river system

2017 IEEE Underwater Technology (UT) ◽

10.1109/ut.2017.7890318 ◽

2017 ◽

Author(s):

Harumi Sugimatsu ◽

Junichi Kojima ◽

Wataru Hori ◽

Tamaki Ura ◽

Rajendar Bahl ◽

...

Keyword(s):

River System ◽

Ganges River ◽

Visual Census ◽

The Ganges

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Status of the Ganges river dolphin or shushuk Platanista gangetica in Kaptai Lake and the southern rivers of Bangladesh

Oryx ◽

10.1017/s0030605300031549 ◽

2001 ◽

Vol 35 (01) ◽

pp. 61 ◽

Cited By ~ 13

Author(s):

Brian D. Smith ◽

Benazir Ahmed ◽

Muhammad Edrise Ali ◽

Gill Braulik

Keyword(s):

Ganges River ◽

River Dolphin ◽

The Ganges

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MRI Examination of Trachea and Bronchi in the Ganges River Dolphin (Platanista gangetica).

Journal of Veterinary Medical Science ◽

10.1292/jvms.61.1137 ◽

1999 ◽

Vol 61 (10) ◽

pp. 1137-1141 ◽

Cited By ~ 6

Author(s):

Hideki ENDO ◽

Daishiro YAMAGIWA ◽

Kazuyoshi ARISHIMA ◽

Masako YAMAMOTO ◽

Motoki SASAKI ◽

...

Keyword(s):

Ganges River ◽

River Dolphin ◽

Mri Examination ◽

The Ganges ◽

Trachea And Bronchi

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The Influence of Weathering, Water Sources, and Hydrological Cycles on Lithium Isotopic Compositions in River Water and Groundwater of the Ganges–Brahmaputra–Meghna River System in Bangladesh

Frontiers in Earth Science ◽

10.3389/feart.2021.668757 ◽

2021 ◽

Vol 9 ◽

Author(s):

Toshihiro Yoshimura ◽

Daisuke Araoka ◽

Hodaka Kawahata ◽

H. M. Zakir Hossain ◽

Naohiko Ohkouchi

Keyword(s):

River Water ◽

Rainy Season ◽

Global Climate ◽

River System ◽

Mineral Formation ◽

Ganges River ◽

Secondary Mineral ◽

Li Isotope ◽

Secondary Mineral Formation ◽

The Ganges

The silicate weathering of continental rocks plays a vital role in determining ocean chemistry and global climate. Spatiotemporal variations in the Li isotope ratio (δ7Li) of terrestrial waters can be used to identify regimes of current and past weathering processes. Here we examine: 1) monthly dissolved δ7Li variation in the Ganges River’s lower reaches; and 2) the spatiotemporal variation of river water of the Brahmaputra, Meghna rivers, and groundwater in Bangladesh. From the beginning to maximum flood discharges of the rainy season (i.e., from June to September), Li concentrations and δ7Li in the Ganges River show remarkable changes, with a large influence from Himalayan sources. However, most Li discharge across the rainy season is at steady-state and strongly influenced by the secondary mineral formation in the low-altitude floodplain. Secondary mineral formation strongly influences the Meghna River’s Li isotopic composition along with fractionation lines similar to the Ganges River. A geothermal input is an additional Li source for the Brahmaputra River. For groundwater samples shallower than ∼60 m depth, both δ7Li and Li/Na are highly scattered regardless of the sampling region, suggesting the variable extent of fractionation. For deep groundwater (70–310 m) with a longer residence time (3,000 to 20,000 years), the lower δ7Li values indicate more congruent weathering. These results suggest that Li isotope fractionation in rivers and groundwater depends on the timescale of water-mineral interaction, which plays an essential role in determining the isotopic signature of terrestrial Li inputs to the ocean.

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On the evidence of the Irrawaddy Dolphin Orcaella brevirostris (Owen, 1866) (Mammalia: Cetartiodactyla: Delphinidae) in the Hooghly River, West Bengal, India

Journal of Threatened Taxa ◽

10.11609/jott.5171.12.8.15905-15908 ◽

2020 ◽

Vol 12 (8) ◽

pp. 15905-15908

Author(s):

Gargi Roy Chowdhury ◽

Kanad Roy ◽

Naman Goyal ◽

Ashwin Warudkar ◽

Rashid Hassnain Raza ◽

...

Keyword(s):

West Bengal ◽

Field Work ◽

Ganges River ◽

Intensive Monitoring ◽

River Dolphin ◽

Irrawaddy Dolphin ◽

The Ganges

We report the presence and status of the Irrawaddy Dolphin Orcaella brevirostris in the Hooghly River of West Bengal, India. These observations were made while conducting our field work on the Ganges River Dolphin, which involved vessel-based surveys as well as intensive monitoring from an anchored boat.

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Message in a bottle: Open source technology to track the movement of plastic pollution

PLoS ONE ◽

10.1371/journal.pone.0242459 ◽

2020 ◽

Vol 15 (12) ◽

pp. e0242459

Author(s):

Emily M. Duncan ◽

Alasdair Davies ◽

Amy Brooks ◽

Gawsia Wahidunnessa Chowdhury ◽

Brendan J. Godley ◽

...

Keyword(s):

Open Source ◽

Bay Of Bengal ◽

Animal Movement ◽

Public Awareness ◽

River System ◽

Educational Outreach ◽

Source Tracking ◽

Ganges River ◽

Plastic Pollution ◽

The Ganges

Rivers worldwide are now acting as major transport pathways for plastic pollution and discharge large quantities of waste into the ocean. Previous oceanographic modelling and current drifter data have been used to predict the movement and accumulation of plastic pollution in the marine environment, but our understanding of the transport and fate through riparian systems is still largely unknown. Here we undertook a proof of concept study by applying open source tracking technology (both GPS (Global Positing System) cellular networks and satellite technology), which have been successfully used in many animal movement studies, to track the movements of individual plastic litter items (500 ml PET (polyethylene terephthalate) drinks bottles) through the Ganges River system (known as the Ganga in India and the Padma and Meghna in Bangladesh, hereafter known as the Ganges) and the Bay of Bengal. Deployed tags were successfully tracked through the Ganges river system and into the Bay of Bengal marine system. The “bottle tags” were designed and built (e.g. shape, size, buoyancy) to replicate true movement patterns of a plastic bottle. The maximum distance tracked to date is 2845 km over a period of 94 days. We discuss lessons learnt from the development of these plastic litter tags, and outline how the potential widespread use of this open source technology has the ability to significantly increase understanding of the location of accumulation areas and the timing of large inputs of plastic pollution into the aquatic system. Furthermore, “bottle tags” may act as a powerful tool for stimulating social behaviour change, informing science-based policy, and as valuable educational outreach tools for public awareness.

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