Abstract:
Blue bull is Asia��’s largest antelope, a species of least concern in IUCN Red data list of 2020. In Nepal, it is vulnerable and is often considered as a problem animal for its crop raiding habit. Although, its population is restricted in India and Nepal, there are insufficient studies conducted on the distribution and threats of the species at local level. This study aimed to assess the distribution of blue bull and its conservation threats in Bardia National Park and its buffer zone. Field… Show more
“…Chauhan and Singh (1990) also believed that crop protection barriers such as plastic net, netted wire and chain-link fences are extremely costly while nylon fencing is a more affordable and effective alternative for nilgai management. Koirala et al (2020) also mentioned fencing as one of the most effective methods among various mitigation measures. Naik and Basavadarshan (2020) tested nylon net against wild boar (Sus scrofa L.) for three consecutive years and found significantly decreased crop damage.…”
Crop raiding has been reported in many parts of Punjab as a result of an overabundance of nilgai antelopes (Boselaphus tragocamelus) and farmers are constantly battling to save their crops. In the present study, various management strategies such as physical deterrents (nylon rope, nylon net and garden net), visual repellents (scarecrow and reflective ribbon), chemical repellents (different concentrations of Neelbo and Ecodon (based on ricinoleic acid) applied by spraying, soaking jute rope, soaked in wood shavings packed in plastic bags and paper cups) and biological deterrents (bioacoustic device and different concentrations of faecal solution of horse, tiger and Himalayan black bear) were evaluated to minimize the damage caused by nilgai. Nylon net was the most promising method, providing complete protection against nilgai, which can be used for protecting crops at vulnerable stages with a one-time cost. The nylon rope and garden net provided partial protection from nilgai damage. The bioacoustic device and reflective ribbon were also effective for a short period of time. Neelbo was found more effective as chemical repellent against nilgai. The faecal solution of horse and Himalayan black bear remained effective as repellent for 10 days. It is thus concluded that while comprehensive damage prevention may be difficult, animal management devices can help reduce nilgai damage at vulnerable stages of the crop. The employment of a range of management devices at the proper time can be part of a cost-effective system to keep nilgai damage at acceptable levels.
“…Chauhan and Singh (1990) also believed that crop protection barriers such as plastic net, netted wire and chain-link fences are extremely costly while nylon fencing is a more affordable and effective alternative for nilgai management. Koirala et al (2020) also mentioned fencing as one of the most effective methods among various mitigation measures. Naik and Basavadarshan (2020) tested nylon net against wild boar (Sus scrofa L.) for three consecutive years and found significantly decreased crop damage.…”
Crop raiding has been reported in many parts of Punjab as a result of an overabundance of nilgai antelopes (Boselaphus tragocamelus) and farmers are constantly battling to save their crops. In the present study, various management strategies such as physical deterrents (nylon rope, nylon net and garden net), visual repellents (scarecrow and reflective ribbon), chemical repellents (different concentrations of Neelbo and Ecodon (based on ricinoleic acid) applied by spraying, soaking jute rope, soaked in wood shavings packed in plastic bags and paper cups) and biological deterrents (bioacoustic device and different concentrations of faecal solution of horse, tiger and Himalayan black bear) were evaluated to minimize the damage caused by nilgai. Nylon net was the most promising method, providing complete protection against nilgai, which can be used for protecting crops at vulnerable stages with a one-time cost. The nylon rope and garden net provided partial protection from nilgai damage. The bioacoustic device and reflective ribbon were also effective for a short period of time. Neelbo was found more effective as chemical repellent against nilgai. The faecal solution of horse and Himalayan black bear remained effective as repellent for 10 days. It is thus concluded that while comprehensive damage prevention may be difficult, animal management devices can help reduce nilgai damage at vulnerable stages of the crop. The employment of a range of management devices at the proper time can be part of a cost-effective system to keep nilgai damage at acceptable levels.
“…Sal ( Shorea robusta ), Asna ( Terminalia tomentosa ), Botdhamero ( Lagestroemia parviflora ), and Sindure ( Mallatus Philippines ) are the dominant floral species [ 81 ]. Similarly, Swamp deer ( Cervus duvaucelii ), Black buck ( Antilope cervicapra ), hog deer ( Axis porcinus ), Python ( Python molurus ), Spotted deer ( Axis axis ), Sambar deer ( Rusa unicolor ), Gaur ( Bos gaurus ), Rhinoceros ( Rhinoceros unicornis ), Tiger ( Panthera tigris tigris ), Common leopard ( Panthera pardus ), Wild Asian elephant ( Elephas maximas ), and Giant hornbill ( Buceros bicornis ) are the major faunal species [ 28 , 36 , 48 ]. Fig.…”
Section: Methodsmentioning
confidence: 99%
“…Escalating anthropogenic activities such as poaching for trophies and food assumption [ [38] , [39] , [40] , [41] ], deforestation and forest fire [ 42 , 43 ], change in river dynamics, increase in siltation [ 44 ], habitat fragmentation [ 45 ], infrastructure development [ 46 ], disease [ 29 , 36 , 40 , 41 ], human-wildlife conflict [ 47 , 48 ], and food deficiency due to agricultural expansion [ 49 ] have become a major threat to biodiversity conservation globally. These activities are especially likely to endanger the existence of habitat specialist species like swamp deer, which are already threatened with extinction [ 50 ].…”
“…Because the protection of fields will remain essential in the future, thus it is important to address wildlife and human conflicts with appropriate techniques (Manral et al, 2016). Blue bull (Boselaphus tragocamelus) is a devastating pest of agriculture, mostly found in plain parts of southern Nepal (Koirala et al, 2020;Khanal et al, 2018;Thapa, 2016). They destroyed 14.48% and 10.38% of standing vegetables and pulses accounting $68,633 in Rupendehi district from March 2015 to March 2016 (Khanal et al, 2017).…”
An experiment was conducted to evaluate two deterrents to deter blue bull Boselaphus tragocamelus and monkey Rhesus macaque from crop fields through randomized block design experimental trials in different parts of Nepal from July 2019 to May 2021. The odour deterrent tri methyl amine @15ml/ 700 m2 and microbial fermented fish solution @4ml/ l were evaluated among 150 plots each with 50 replications including control. Significant results were obtained where >90% farmers responded that tri methyl amine repelled blue bull and monkey for >14 days. This might be due to its strong ammonia like fishy odour which was unpleasant to these animals and might had been found irritant and offensive. Similarly, many farmers replied that the microbial fermented fish solution also protected their crops from blue bull for ≥ 30 days.
scite is a Brooklyn-based organization that helps researchers better discover and understand research articles through Smart Citations–citations that display the context of the citation and describe whether the article provides supporting or contrasting evidence. scite is used by students and researchers from around the world and is funded in part by the National Science Foundation and the National Institute on Drug Abuse of the National Institutes of Health.
