Your search keyword '"Jhala, Yadvendradev V."' showing total 17 results

1. Megaherbivores provide biotic resistance against alien plant dominance.

Author

Mungi, Ninad Avinash, Jhala, Yadvendradev V., Qureshi, Qamar, le Roux, Elizabeth, and Svenning, Jens-Christian

Published

2023

2. Abundance and activity of carnivores in two protected areas of semi-arid western India with varying top predator density and human impacts.

Author

Latafat, Kainat, Sadhu, Ayan, Qureshi, Qamar, and Jhala, Yadvendradev V.

Abstract

Large carnivores are vulnerable to population decline due to their k-selected traits in fragmented human-dominated landscapes. In the semi-arid landscape of western India, tiger (top predator) populations went locally extinct from most of the forested ecosystems, while the mesopredators (leopards, hyenas, wolves) managed to survive in these mosaics of forest, agriculture, pasturelands, ravines, and human habitations. In this study, we used camera traps to survey two protected areas (PAs) in the semi-arid western Indian landscape—Mukundara (without tigers) and Ranthambhore (with high-density tiger population)—and compare the abundance and activity of mesopredators between sites to assess the effect of top predator presence on mesopredators. The carnivore community was more diverse in Ranthambhore (well-protected) than in the human disturbed habitats of Mukundara; however, the relative abundance of mesopredators was higher in Mukundara. Striped hyena density was estimated higher in Mukundara (40.6 ± 7.36/100 km2) than in Ranthambhore (9.3 ± 1.3/100 km2), while leopard density estimates were comparable (Mukundara, 10.9 ± 3.0/100 km2; Ranthambhore, 11.2 ± 1.6/100 km2). Temporal activities of carnivores in Mukundara indicated avoidance of human disturbance, while in Ranthambhore, it seemed primarily governed by competitive interactions between carnivores. Our findings are indicative of the mesopredator release hypothesis, where the number of mesopredators increased in the absence of top predator; however, the results are confounded by differential resource availability, human disturbance, and poaching levels between sites. The outcomes emphasised the importance of conserving habitat fragments (irrespective of charismatic species’ presence) in human-dominated landscapes to conserve carnivore populations. Conservation investments should focus on habitat protection, securing inviolate areas inside the PAs and restoring connectivity between PAs. [ABSTRACT FROM AUTHOR]

Published

2023

3. Human-attacks by an urban raptor are tied to human subsidies and religious practices

Author

Kumar, Nishant, Jhala, Yadvendradev V., Qureshi, Qamar, Gosler, Andrew G., Sergio, Fabrizio, Kumar, Nishant, Jhala, Yadvendradev V., Qureshi, Qamar, Gosler, Andrew G., and Sergio, Fabrizio

Abstract

Growing urbanization is increasing human-wildlife interactions, including attacks towards humans by vertebrate predators, an aspect that has received extremely scarce investigation. Here, we examined the ecological, landscape and human factors that may promote human-aggression by raptorial Black kites Milvus migrans in the 16-millions inhabitants megacity of Delhi (India). Physical attacks depended on human activities such as unhygienic waste management, ritual-feeding of kites (mainly operated by Muslims), human density, and presence of a balcony near the nest, suggesting an association between aggression and frequent-close exposure to humans and derived food-rewards. Surprisingly, while more than 100,000 people could be at risk of attack in any given moment, attitudes by local inhabitants were strikingly sympathetic towards the birds, even by injured persons, likely as a result of religious empathy. These results highlight the importance of socio-cultural factors for urban biota and how these may radically differentiate the under-studied cities of developing countries from those of western nations, thus broadening our picture of human-wildlife interactions in urban environments. The rapid sprawling of urban and suburban areas with their associated food-subsidies is likely to increase proximity and exposure of large predators to humans, and vice versa, leading to heightened worldwide conflicts.

Published

2019

4. Camera trap placement for evaluating species richness, abundance, and activity.

Author

Tanwar, Kamakshi S., Sadhu, Ayan, and Jhala, Yadvendradev V.

Subjects

SCOUTING cameras, SPECIES diversity, NUMBERS of species, RANDOM numbers

Abstract

Information from camera traps is used for inferences on species presence, richness, abundance, demography, and activity. Camera trap placement design is likely to influence these parameter estimates. Herein we simultaneously generate and compare estimates obtained from camera traps (a) placed to optimize large carnivore captures and (b) random placement, to infer accuracy and biases for parameter estimates. Both setups recorded 25 species when same number of trail and random cameras (n = 31) were compared. However, species accumulation rate was faster with trail cameras. Relative abundance indices (RAI) from random cameras surrogated abundance estimated from capture-mark-recapture and distance sampling, while RAI were biased higher for carnivores from trail cameras. Group size of wild-ungulates obtained from both camera setups were comparable. Random cameras detected nocturnal activities of wild ungulates in contrast to mostly diurnal activities observed from trail cameras. Our results show that trail and random camera setup give similar estimates of species richness and group size, but differ for estimates of relative abundance and activity patterns. Therefore, inferences made from each of these camera trap designs on the above parameters need to be viewed within this context. [ABSTRACT FROM AUTHOR]

Published

2021

5. Habitat selection by an avian top predator in the tropical megacity of Delhi: human activities and socio-religious practices as prey-facilitating tools

Author

Kumar, Nishant, Gupta, Urvi, Jhala, Yadvendradev V., Qureschi, Qamar, Sergio, Fabrizio, Kumar, Nishant, Gupta, Urvi, Jhala, Yadvendradev V., Qureschi, Qamar, and Sergio, Fabrizio

Abstract

Research in urban ecology is growing rapidly in response to the exponential growth of the urban environment. However, few studies have focused on tropical megacities, and on the interplay between predators’ habitat selection and human socio-economic aspects, which may mediate their resilience and coexistence with humans. We examined mechanisms of breeding habitat selection by a synanthropic raptor, the Black Kite Milvus migrans, in Delhi (India) where kites mainly subsist on: (1) human refuse and its associated prey-fauna, and (2) ritualised feeding of kites, particularly practised by Muslims. We used mixed effects models to test the effect of urban habitat configuration and human practices on habitat selection, site occupancy and breeding success. Kite habitat decisions, territory occupancy and breeding success were tightly enmeshed with human activities: kites preferred areas with high human density, poor waste management and a road configuration that facilitated better access to resources provided by humans, in particular to Muslim colonies that provided ritual subsidies. Furthermore, kites bred at ‘clean’ sites with less human refuse only when close to Muslim colonies, suggesting that the proximity to ritual-feeding sites modulated the suitability of other habitats. Rather than a nuisance to avoid, as previously portrayed, humans were a keenly-targeted foraging resource, which tied a predator’s distribution to human activities, politics, history, socio-economics and urban planning at multiple spatio-temporal scales. Many synurbic species may exploit humans in more subtle and direct ways than was previously assumed, but uncovering them will require greater integration of human socio-cultural estimates in urban ecological research

Published

2018

6. Feasibility of reintroducing grassland megaherbivores, the greater one-horned rhinoceros, and swamp buffalo within their historic global range.

Author

Jhala, Harshini Y., Qureshi, Qamar, Jhala, Yadvendradev V., and Black, Simon A.

Subjects

HERBIVORES, RHINOCEROSES, ENDANGERED species, HABITATS, SPECIES distribution

Abstract

Reintroduction of endangered species is an effective and increasingly important conservation strategy once threats have been addressed. The greater one-horned rhinoceros and swamp buffalo have declined through historic hunting and habitat loss. We identify and evaluate available habitat across their historic range (India, Nepal, and Bhutan) for reintroducing viable populations. We used Species Distribution Models in Maxent to identify potential habitats and evaluated model-identified sites through field visits, interviews of wildlife managers, literature, and population-habitat viability analysis. We prioritize sites based on size, quality, protection, management effectiveness, biotic pressures, and potential of conflict with communities. Our results suggest that populations greater than 50 for rhinoceros and 100 for buffalo were less susceptible to extinction, and could withstand some poaching, especially if supplemented or managed as a metapopulation. We note some reluctance by managers to reintroduce rhinoceros due to high costs associated with subsequent protection. Our analysis subsequently prioritised Corbett and Valmiki, for rhino reintroduction and transboundary complexes of Chitwan-Parsa-Valmiki and Dudhwa-Pilibhit-Shuklaphanta-Bardia for buffalo reintroductions. Establishing new safety-nets and supplementing existing populations of these megaherbivores would ensure their continued survival and harness their beneficial effect on ecosystems and conspecifics like pygmy hog, hispid hare, swamp deer, hog deer, and Bengal florican. [ABSTRACT FROM AUTHOR]

Published

2021

7. The role of kinship and demography in shaping cooperation amongst male lions.

Author

Chakrabarti, Stotra, Kolipakam, Vishnupriya, Bump, Joseph K., and Jhala, Yadvendradev V.

Subjects

KINSHIP, ASIATIC lion, COALITIONS, MICROSATELLITE repeats, GENEALOGY

Abstract

The influence of kinship on animal cooperation is often unclear. Cooperating Asiatic lion coalitions are linearly hierarchical; male partners appropriate resources disproportionately. To investigate how kinship affect coalitionary dynamics, we combined microsatellite based genetic inferences with long-term genealogical records to measure relatedness between coalition partners of free-ranging lions in Gir, India. Large coalitions had higher likelihood of having sibling partners, while pairs were primarily unrelated. Fitness computations incorporating genetic relatedness revealed that low-ranking males in large coalitions were typically related to the dominant males and had fitness indices higher than single males, contrary to the previous understanding of this system based on indices derived from behavioural metrics alone. This demonstrates the indirect benefits to (related) males in large coalitions. Dominant males were found to 'lose less' if they lost mating opportunities to related partners versus unrelated males. From observations on territorial conflicts we show that while unrelated males cooperate, kin-selected benefits are ultimately essential for the maintenance of large coalitions. Although large coalitions maximised fitness as a group, demographic parameters limited their prevalence by restricting kin availability. Such demographic and behavioural constraints condition two-male coalitions to be the most attainable compromise for Gir lions. [ABSTRACT FROM AUTHOR]

Published

2020

8. Author Correction: The role of kinship and demography in shaping cooperation amongst male lions.

Author

Chakrabarti, Stotra, Kolipakam, Vishnupriya, Bump, Joseph K., and Jhala, Yadvendradev V.

Subjects

LIONS, KINSHIP, WILDLIFE conservation, DEMOGRAPHY, FOREST microclimatology, WILDLIFE conservation laws, WOMEN'S roles

Abstract

This document is a correction notice for an article titled "The role of kinship and demography in shaping cooperation amongst male lions" published in Scientific Reports. The correction addresses an error in the original article regarding the permit number of the Office of the Chief Wildlife Warden (CWLW) mentioned in the Methods section. The corrected version provides the accurate permit number and clarifies that all necessary permissions were obtained for fieldwork and sample collection. The correction was made by the authors Stotra Chakrabarti, Vishnupriya Kolipakam, Joseph K. Bump, and Yadvendradev V. Jhala. [Extracted from the article]

Published

2024

9. The case for the reintroduction of cheetahs to India.

Author

Tordiffe, Adrian S. W., Jhala, Yadvendradev V., Boitani, Luigi, Cristescu, Bogdan, Kock, Richard A., Meyer, Leith R. C., Naylor, Simon, O'Brien, Stephen J., Schmidt-Küntzel, Anne, Stanley Price, Mark R., van der Merwe, Vincent, and Marker, Laurie

Published

2023

10. Behavioural Ecology of a Grassland Antelope, the Blackbuck Antilope cervicapra: Linking Habitat, Ecology and Behaviour.

Author

Jhala, Yadvendradev V. and Isvaran, Kavita

Published

2016

11. Author Correction: Camera trap placement for evaluating species richness, abundance, and activity.

Author

Tanwar, Kamakshi S., Sadhu, Ayan, and Jhala, Yadvendradev V.

Subjects

SPECIES diversity, CAMERAS

Abstract

Only RAI's from random camera trap placement designs had significant correlations with absolute density. Graph: Figure 3 Scaling RAI values from different camera trap designs with absolute density. [Extracted from the article]

Published

2022

12. Status of large carnivores and their prey in tropical rainforests of South-western Ghats, India.

Author

Ramesh, Tharmalingam, Sridharan, Natarajan, Sankar, Kalyanasundaram, Qureshi, Qamar, Selvan, Kanagaraj Muthamizh, Gokulakkannan, Neduncheran, Francis, Pichaiyan, Narasimmarajan, Kannadasan, Jhala, Yadvendradev V., and Gopal, Rajesh

Subjects

PREDATION, RAIN forests, TIGERS, LEOPARD, CUON alpinus, ANIMAL traps

Abstract

Copyright of Tropical Ecology is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2012

13. Low genetic diversity in the endangered great Indian bustard ( Ardeotis nigriceps) across India and implications for conservation.

Author

Ishtiaq, Farah, Dutta, Sutirtha, Yumnam, Bibek, and Jhala, Yadvendradev V.

Subjects

BUSTARDS, MITOCHONDRIAL DNA, ANIMAL genetics, CYTOCHROME b, WILDLIFE conservation, ENDANGERED species

Abstract

The great Indian bustard ( Ardeotis nigriceps) is an endemic endangered bird of the Indian subcontinent with a declining population, as a result of hunting and continuing habitat loss. In this first genetic study of this little-known species, we investigate the diversity of the mitochondrial DNA (hypervariable control region II and cytochrome b gene) among samples ( n = 63) from five states within the current distribution range of great Indian bustards in India. We find just three haplotypes defined by three variable sites, a comparatively low genetic diversity of π = 0.0021 ± 0.0012 for cytochrome b, 0.0008 ± 0.0007 for the control region (CR), and 0.0017 ± 0.0069 for combined regions and no phylogeographic structure between populations. We provide evidence for a bottleneck event, estimate an effective population size ( Ne) that is roughly concordant with recent population size estimates based on field surveys (~200 to 400), but extremely low for a widely distributed species. We also discuss the conservation implications. Based on our findings, we strongly recommend upgrading the IUCN threat status from Endangered to Critically Endangered. [ABSTRACT FROM AUTHOR]

Published

2011

14. Running out of time? The great Indian bustard Ardeotis nigriceps-status, viability, and conservation strategies.

Author

Dutta, Sutirtha, Rahmani, Asad R., and Jhala, Yadvendradev V.

Subjects

ARDEOTIS, BUSTARDS, HABITATS, GRASSLANDS, ANIMAL ecology

Abstract

The endemic great Indian bustard (GIB) is evolutionarily trapped between open nesting and k-selection that endangers its persistence under prevailing levels of habitat loss and hunting. A global population of about 300 birds is further fragmented into eight populations in the states of Rajasthan (shared with Pakistan), Maharashtra, Andhra Pradesh, Gujarat, Karnataka, and Madhya Pradesh in India. The largest population of 100-125 birds exists in Jaisalmer, Barmer, and Bikaner districts of Rajasthan. Remaining populations number less than 35 birds each. Prevalent GIB conservation strategies use legislation to (a) secure traditional breeding areas by declaring small Protected Areas (PA) or (b) protect vast areas with varied human land uses. The vagrant nature of GIB reduces the benevolent effect of small PAs, while large reserves alienate people by curbing legitimate subsistence rights through strict legislation. These factors along with ill-informed habitat management challenge the current PA approach, even causing local extinctions. Population viability analysis shows that GIB populations of ≤35 birds can persist only under unrealistic conditions of first year mortality ≤40%, and no human caused mortality of adult birds. Even the largest population (≥100 birds) is sensitive to additional loss of adult birds to human causes. With current levels of hunting in Pakistan, extinction is a real threat. A landscape conservation strategy using conservation/community reserve concept that includes controlled traditional land uses with GIB-friendly infrastructural development is needed. The declining rate of GIB populations calls for immediate commencement of ex situ conservation breeding programs. [ABSTRACT FROM AUTHOR]

Published

2011

15. Home range and habitat preference of female lions (Panthera leo persica) in Gir forests, India.

Author

Jhala, Yadvendradev V., Mukherjee, Shomen, Shah, Nita, Chauhan, Kartikeya S., Dave, Chittranjan V., Meena, V., and Banerjee, Kausik

Subjects

LIONS, HABITAT selection, RADIO telemetry, SOCIAL structure, ANIMAL breeding, ANIMAL homing, MIXED forests

Abstract

The social organization of Asiatic lions (Panthera leo persica) differs from African lions (P. l. leo) in that breeding lionesses defend resource based territories while male coalitions maximize coverage of female groups. Thus, lion density in the Gir forests of India is dictated by female territory size. We studied the home range and habitat preference of lions using radio telemetry on seven lionesses spaced throughout the Gir between 2002 and 2005. Radio locations obtained by homing in were plotted on a classified (LISS III FCC) habitat map of Gir to obtain habitat use and availability. Habitat preference was computed using compositional analysis and Ivlev's index. Average (±SE) 100% Minimum Convex Polygon (MCP) range of six lionesses was 48.2 ± 10.6 km2, 95% MCP was 34.7 ± 7.8 km2 and 95% fixed kernel range size was 32.5 ± 8.2 km2. Breeding female group density and group size was about 3 per 100 km2 and 1.3 (0.5 SD, n = 45) respectively. Lions were observed to show a habitat preference (χ2(6df) = 11:4, P = 0.08), the order of preference was Moist Mixed forests[Mixed forests[Savanna habitats[Teak-Acacia- Zizyphus-Anogeissus forests[Acacia-Lannea-Boswellia forests[Thorn and Scrub forests[ Agriculture areas. Habitat preference during the day was for dense vegetation (χ2(6df) = 35, P<0.001). At night lions even ventured into agricultural fields. Our data suggests that dense habitats are preferred by lions in Gir to escape the heat of the day and to be in good cover when human activity was likely to be at its peak within forested areas. [ABSTRACT FROM AUTHOR]

Published

2009

16. Food habits of the Indian fox (Vulpes bengalensis) in Kutch, Gujarat, India

Author

Home, Chandrima and Jhala, Yadvendradev V.

Subjects

*FOOD habits, *ANIMAL feeding behavior, *VULPES, *FOX breeding, *OMNIVORES, *UROMASTYX

Abstract

Abstract: We characterized the diet of the Indian fox (Vulpes bengalensis) during the breeding season in a semi-desert region of Western India. Diet was estimated using scat analysis. We used Index of Relative Importance (IRI) to determine the contribution of prey items in the diet of the Indian fox. Indian foxes were observed to feed on a wide variety of prey items. Arthropods were the most frequently occurring prey in their diet. IRI scores were highest for the group Coleoptera and Orthoptera followed by rodents, termites, Ziziphus fruits and spiny tailed lizards (Uromastyx hardwickii). IRI scores for rodents were higher for pups, differing significantly from proportions present in adult diet, thus indicating that they are crucial food items for the young ones. Prey proportions in the fox diet differed between the two habitats in the study area (grassland and scrubland). Our data suggest that the Indian fox is essentially an omnivore showing similar diet (in terms of high incidence of arthropods) to foxes inhabiting arid and semi-arid regions. The opportunistic and generalist strategy has probably helped the species to survive in varied habitats across the Indian subcontinent. [Copyright &y& Elsevier]

Published

2009

17. GPS-telemetry unveils the regular high-elevation crossing of the Himalayas by a migratory raptor: implications for definition of a "Central Asian Flyway".

Author

Kumar, Nishant, Gupta, Urvi, Jhala, Yadvendradev V., Qureshi, Qamar, Gosler, Andrew G., and Sergio, Fabrizio

Subjects

GLOBAL Positioning System, TELEMETRY, MIGRATORY animals, IMMIGRANTS

Abstract

Remote technologies are producing leapfrog advances in identifying the routes and connectivity of migratory species, which are still unknown for hundreds of taxa, especially Asian ones. Here, we used GPS-telemetry to uncover the migration routes and breeding areas of the massive population of migratory Black-eared kites wintering around the megacity of Delhi-India, which hosts the largest raptor concentration of the world. Kites migrated for 3300–4800 km along a narrow corridor, crossing the Himalayas at extremely high elevations (up to > 6500 m a.s.l.) by the K2 of the Karakoram Range and travelled long periods at elevations above 3500 m. They then crossed/circumvented the Taklamakan Desert and Tian Shan Range to reach their unknown breeding quarters at the intersection between Kazakhstan, Russia, China and Mongolia. Route configuration seemed to be shaped by dominant wind support and barrier avoidance. Wintering ranges were smaller than breeding ranges and concentrated around Delhi, likely in response to massive human food-subsidies. Our results illustrate that high-elevation crossings by soaring migrants may be more common than previously appreciated and suggest the delineation of a hitherto poorly-appreciated "Central Asian Flyway", which must funnel hundreds of thousands of migrants from central Asia into the Indian subcontinent via multiple modes of the Himalayan crossing. [ABSTRACT FROM AUTHOR]

Published

2020