Sarika Khanwilkar scite author profile

Despite multiple approaches over the last several decades to harmonize conservation and development goals in the tropics, forest-dependent households remain the poorest in the world. Durable housing and alternatives to fuelwood for cooking are critical needs to reduce multi-dimensional poverty. These improvements also potentially reduce pressure on forests and alleviate forest degradation. We test this possibility in dry tropical forests of the Central Indian Highlands where tribal and other marginalized populations rely on forests for energy, construction materials, and other livelihood needs. Based on a remotely sensed measure of forest degradation and a 5000 household survey of forest use, we use machine learning (causal forests) and other statistical methods to quantify treatment effects of two improved living standards-alternatives to fuelwood for cooking and non-forest-based housing material-on forest degradation in 1, 2, and 5 km buffers around 500 villages. Both improved living standards had significant treatment effects (−0.030 ± 0.078, −0.030 ± 0.023, 95% CI), respectively, with negative values indicating less forest degradation, within 1 km buffers around villages. Treatment effects were lower with increasing distance from villages. Results suggest that improved living standards can both reduce forest degradation and alleviate poverty. Forest restoration efforts can target improved living standards for local communities without conflicts over land tenure or taking land out of production to plant trees.

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Migration, assets, and forest degradation in a tropical deciduous forest of South Asia

Baquié

Urpelainen²,

Khanwilkar

et al. 2021

Ecological Economics

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Patterns of illegal and legal tiger parts entering the United States over a decade (2003–2012)

Khanwilkar

Sosnowski

Guynup

2022

Conservat Sci and Prac

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Poaching and illegal trade are primary threats to tigers (Panthera tigris). Trade in tiger parts has been well documented in Asia. However, little is known about tiger parts entering the United States (US). We analyzed seizures of tiger parts trafficked through US ports of entry from 2003 to 2012 along with shipments that had been issued legal Convention on International Trade in Endangered Species import permits. We found 292 seizure incidents and 283 permitted imports over that 10-year period. The amount of tiger parts trafficked into the US illegally was larger than what has been previously reported. Most tiger parts entered the US legally and illegally for personal purposes; 81.8% of seized items were medicinal products. San Francisco, Dallas, and Atlanta were entry hotspots for illegal tiger imports which mainly entered the United States from China and Vietnam. Of the 65.8% of seized parts with a known origin, 99.5% originated from wild tigers. Since country of origin and source of many legally and illegally traded tiger parts was unknown, we recommend the use of forensic DNA analysis to address these knowledge gaps to focus conservation and enforcement efforts. Research should continue in the United States to adequately capture the global supply, demand, and trade of tiger parts.

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Post-lockdown Spread of COVID-19 from Cities to Vulnerable Forest-Fringe Villages in Central India

Defries¹,

Agarwala²,

Baquié³

et al. 2020

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Firewood, Forests, and Fringe Populations: Exploring the Inequitable Socioeconomic Dimensions of Liquified Petroleum Gas (LPG) Adoption in India

et al. 2021

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Estimating Leopard Panthera pardus fusca (Mammalia: Carnivora: Felidae) abundance in Kuno Wildlife Sanctuary, Madhya Pradesh, India

et al. 2019

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Reliable population estimate of apex predators, such as the Leopard Panthera pardus fusca, is important as they indicate ecosystem health, enable evaluation of the effectiveness of conservation efforts and provide a benchmark for future management decisions. The present study is the first to estimate abundance of Leopard along with possible prey profile in Kuno Wildlife Sanctuary (KWLS), in central Madhya Pradesh (M.P.), India. For systematic sampling, two study habitats, 15km² each, were identified, one close to the park entrance and the other away from the park entrance. Sampling was carried out between March and April 2017, for a period of 18 days in each of the two study habitats, ‘good’ and ‘poor’, initially based on situation in reference to park-entry. Each habitat was divided into five blocks each, and each block subdivided into three, 1km² observation units. In all, 16 trail cameras were placed in pairs, one set at a time in five of the blocks, over a six–day period. The total sampling effort was 180 trap-nights. The trigger speed was set to 3 frames per 10 seconds, and repeated only after 20 minutes interval on infra-red detection of object. The data was analysed using closed population capture–recapture analyses in Program MARK, to estimate Leopard abundance. Seventy-eight Leopard detections representing eight unique individuals were found in the 30km² study site. Seven Leopards were detected in the good habitat and one in the poor habitat. The estimate for Leopard abundance for the good habitat was 11 Leopards (SE 4.6, 95% CI = 8 – 31 individuals). Due to limited captures/recaptures in the poor habitat, abundance could not be estimated for this habitat class.

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Listening for change: quantifying the impact of ecological restoration on soundscapes in a tropical dry forest

Choksi

Kotian²,

Biniwale³

et al. 2023

Restoration Ecology

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Ecological restoration is crucial to mitigate climate change and conserve biodiversity, and accurately monitoring responses to restoration is imperative to guide current and future efforts. This study examines the impact of ecological restoration of a tropical dry forest in Central India. Here, the state forest department and a nongovernmental organization work with local communities to remove an invasive shrub, Lantana camara, in the forest, to assist natural regeneration, primarily for the purpose of improving access to forest resources for forest‐dependent people. We used acoustic technology to examine the bird community composition and the acoustic space used (ASU) across comparable restored, unrestored (with L. camara), and naturally low L. camara density (LLD) sites. We found no significant difference in the cumulative number of bird species detected between the site types (median in restored and LLD = 38, unrestored = 41). We found a significant difference in bird community composition across sites (r2 = 0.049, p ≤ 0.001). ASU differs between site types (r2 = 0.023, p ≤ 0.10), with restored sites positively associated with ASU compared to unrestored and LLD sites, which could represent a temporary increase in ASU as animal communities are reorganized after the complete removal of L. camara. Our results suggest that small‐scale restoration efforts that aim to help meet livelihood needs have the potential to contribute to ecological goals in this landscape. However, it is necessary to continue to monitor the regeneration trajectory in restored sites and the possible changes in the ASU.

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Firewood, forests, and fringe populations: Exploring the inequitable socioeconomic dimensions of Liquified Petroleum Gas (LPG) adoption in India

Khanwilkar

Gould

DeFries

et al. 2021

Energy Research & Social Science

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