~ by Prameek Kannan
The paper explores the legal system of indigenous, forest dependent, tribal communities in Central India, and the multiple factors that influence its production. Forest dependent communities are not only an integral part of their ecosystems, but are a crucial ally for conservation initiatives as well. There have been few studies on the legal systems of indigenous tribes in India; this study looks to understand the same using a post-humanism approach. Posthumanism is a philosophy that considers humans in relation to ecology and technology, as opposed to in isolation, and therefore is an appropriate lens with which to view the environmental entities that influence tribal law in these communities. Here, the author looks to look at the role played by non-human entities in the production of the legal systems of these tribes.
~ by Archita Sharma (WWF-India)
The Central Indian Landscape has been a stronghold for several long-ranging wild mammals for several thousands of years. Its dense forests and rolling grasslands provide a rich holdout for tigers and several other carnivores, big and small, prowling, hunting, and stalking in the shadows of this wild heartland. But over the last century, Central India has lost a share of its forests to growing human settlements, railways, roads and rampant mining. So, a landscape that was once a contiguous expanse of dry deciduous forests is now fragmented, remaining with 34% forest cover, out of which only 8.5% is legally protected.
Long-ranging mammals need room to roam. In many mammalian carnivores, the juveniles move out of their mother's territory to establish their own, with the males moving long distances to find new territories. When their dispersal routes to seek out prey, territory and mates are severed by roads, cities, villages, mining, and railways, natural populations can be isolated into small island populations. These small isolated populations face a higher risk of disease and extinction. Population genetic structure can help us determine the isolation or connectivity in natural populations.
To put it simply, genetic structure captures the level of genetic variation existing in a population. If mammals from different forest patches are mating with each other, they will be genetically more similar and will consequently have a lower genetic structure. Similarly, isolated populations will be genetically more distinct and will have higher genetic structure. Using DNA as a tool, estimating structure and connectivity in mammals can help us understand fine scale impacts of fragmentation. While there are several such studies on tigers, very little is known about how fragmentation impacts other mammalian species.
A new study published in Diversity and Distribution answers how the same level of habitat fragmentation has differential impacts multiple mammalian species in the threatened Central Indian Landscape. Researchers from the National Centre for Biological Sciences (NCBS), Bengaluru, investigated the genetic structure and connectivity in four long-ranging mammalian species — jungle cat, leopard, sloth bear, and tiger. The four species have varying body size, diet and dispersal abilities, and are expected to have species-specific responses to fragmentation. The two major objectives of the study were (1) to understand how the genetic structure is partitioned between these four species and (2) to find out how different landscape features like roads, built-up areas, and human density impact connectivity and dispersal in the study species.
~ by Amrita Neelakantan (NCCI Coordinator)
A timely study by NCCI founder Prof. Ruth DeFries and collaborators lays out possible scenarios for minimizing risk of exposure to COVID-19 in rural India as the lockdown is relaxed and migrants return to their villages.
What we know
Seasonal migration is a widespread livelihood option for households in forest-fringe areas of Central India, moving people from villages to the country’s cities for up to 6 months in a year. Typically, these migrants are young males and they return to the village in time to plant monsoon crops. Seasonal migrants are generally poorer and less educated than those that migrate permanently (for work or education) . In the current pandemic of COVID-19, the risks of exposing rural India with returning migrants from cities is of major concern for both rural communities and government authorities, as well as for migrants who are desperate to return with no source of income during India’s lockdown.
Moreover, communities on the periphery of forest areas in the country are some of the most vulnerable and poorest. Central India, one of the main forested areas in the country, is important for tiger conservation and has a high proportion of Scheduled Tribe populations. In these villages of Central India, the poorest households use seasonal migration to supplement their incomes , increasing the risks of exposure to COVID-19 as migrants return. These villages are even more at risk as they have poor or non-existent health facilities and low quality diets in typically crowded households . Additionally, most households continue to use fuelwood with high indoor air pollution already causing respiratory problems . While the populations are not as dense as in cities, the spread from village to village and lack of medical facilities is a grave concern.
As of this writing, the country has been in lockdown since March 24th. Seasonal migrants are unable to access work or means to return home. News channels have documented migrants returning home on foot. Quarantine facilities have been set-up in villages but the quality and efficacy of these are unknown. The government restricted inter-state travel for migrants after April 20th. As restrictions ease, chances persist of exposure and spread to adjacent villages from migrants who have already returned.
Given the economic hardships of lockdown, the authors of this study provide some alternatives to severe physical distancing. The objective is to reduce chances of exposure while allowing people to obtain essential supplies, plant crops, and carry out other necessities of daily life. A post-COVID-19 path could be informed by their results.
The study uses data from a 2018 study that surveyed approximately 5000 households in 500 forest-fringe villages in Central India. The original study was to assess patterns of migration over the previous five years (2013 – 2018) and was unrelated to tracking disease spread.
What they found
The researchers found that seasonal migration is widely dispersed across forest-fringe villages of Central India. Eighteen percent of surveyed households sent migrant workers to cities in the last five years. Seventy-five percent of villages had a least one household with migrants, and all districts had a least one village with migrants. Similarly, migrants traveled to 124 locations over the last five years. Over eight percent of migrants went to cities were COVID-19 cases were reported at the beginning of the lockdown, based on the publicly-available COVID-19 tracker site (www.covid19india.org).
The researchers used a simple, epidemiological model of disease spread to examine different scenarios of movement between and within villages (Figure 2). Using varying R0 values (the basic reproduction number that represents the expected number of cases generated by an infected individual), the researchers allowed for scenarios with lenient (no restriction R0=3), moderate (some restriction to interactions R0=2) and maximal (highest restriction R0=1) movement within and between villages. The findings highlight how different strategies for easing lockdown restrictions might vary in terms of the number of people exposed in the unlikely but possible event of the virus reaching a village.
The most effective way to limit exposure is obviously to keep everyone within and across villages in lockdown. But as most Indians are now familiar with, keeping an indefinite lockdown is not feasible with many states already easing some restrictions to save India from economic hardship. The more important question then becomes, how one would begin opening up the lockdown or easing restrictions to balance the economic needs with necessary caution to avoid exposure to the virus.
This study reports, for a hypothetical case of exposure in one village, that maximal limitations to movement between villages with lenient movement within villages (middle scenario in Figure 2) exposes fewer people than moderate restrictions that apply to both within and across villages (bottom scenario).
Incidentally, the scenario that led to the least number of exposed people in the model is similar to New Zealand’s successful “social bubble” and communities’ efforts in India to restrict entry to villages.
~ by Prachi Thatte (WWF-India)
Home to several species of mammals and birds, the Deccan plateau has a mix of dry and moist deciduous forests. These forests are adapted to moderate rainfall during monsoon and a long dry season characteristic of central India. But this has not always been the case. The geological and climatic history of earth is marked by many periods of changes and even flips. A recent study adds to the evidence that the Deccan plateau once supported dense rainforests and a seaway that passed through the heart of central India.
During the age of dinosaurs, around 200 million years ago, South America, Africa, India, Australia and Antarctica together formed a supercontinent, the Gondwana. Due to plate tectonic movements, the Indian subcontinent gradually separated from rest of the land masses, started moving north and eventually collided with Eurasia, forming the mighty Himalayas. Before the collision, the subcontinent went through a long isolated journey along different latitudes and experienced different climates. This story of movement and dynamic climate is stored in the fossils found deep under the surface of the soil.
The breakup of Gondwana, 200 million years ago, and motion of continents to their present-day positions. Source: http://pubs.usgs.gov/gip/dynamic/historical.html
Bones, scales, leaves and even pollen and cysts get preserved between sedimentary deposits creating a rich historical library over years. Fossils stored at different depths and the associated soil/rock can give a glimpse of the geological and biological history of a region. A recent study, carried out by scientists from Birbal Sahni Institute of Palaeosciences (Lucknow) and Indian Institute of Technology (Roorkee), looked at such a piece of history from Ashti village in Yeotmal district of Maharashtra. The researchers bored an 80 meters deep narrow shaft and excavated the soil and rock sample. Around 60 m below the ground surface they found fossils- pollen, spores and cysts around 60-70 million years old.
These fossils were found below the layer of lava that came from the Deccan volcanic flow. So the fossils belong to a time before the volcanic event that happened around 66 million years ago. The fossils were identified as spores from different species of aquatic ferns and pollen from a couple of species of palm. The authors also discovered two new species of pollen- Dipterocarpuspollenites cretacea and Retiacolpites pigafettaensis. Although these species with jawbreaker names are now extinct, the existing relatives of these are found in low-lying rain forests and thrive in highly humid conditions. This suggests that their extinct relatives might also have preferred similar conditions. The authors also found high abundance of Nypa palm pollen. Nypa is a coastal palm that requires highly humid conditions and is currently only found in Sundarbans in India. Based on all this fossil evidence, the authors conclude that, before the Deccan volcanism, while the Indian subcontinent was still floating, the area around Yavatmal was a low-lying coastal area with high humidity due to persistent rainfall.
~ by Archita Sharma (University of Delhi)
Nested in Satpura-Mikal range lies the Kanha-Pench forest landscape, spanning over an area of 10,000 square kilometers. It connects two well-known tiger reserves: Kanha and Pench. This landscape is a mosaic of dry deciduous forests, rippling grasslands, and tanned scrublands, with almost 400 villages. Although protected reserves play a crucial role in conserving wildlife, many species of wild carnivores also depend on being able to occupy human-dominated spaces. There is little understanding of human-carnivore interactions in such shared spaces.
A new study published in Royal Society Open Science revealed habitat preferences, livestock predation, and conservation requirements for five lesser-known carnivores in the Kanha-Pench forest landscape. The results offer a framework for assessing human-carnivore interactions in other regions as well.
The study focused on four wild canid species - Indian grey wolf, Dhole, Indian jackal, and Indian fox. Striped hyena, which is closely related to wild canids in terms of behavior and ecology, was also included in the assessment. The research team used a unique socio-ecological framework for assessing carnivore occupancy and livestock depredation patterns by combining field data gathered from 1600 kilometers of indirect sign survey (scats and tracks) with 700 interview surveys of local residents. 10,000 square kilometers of the landscape was divided into 128 cells of 52 square kilometers each, and this grid-network was then used for data collection. Data on the distribution of free-ranging dogs in the study area was also included in the assessment.
Photo credits as on photo and Centre for Wildlife Studies (https://cwsindia.org/)
Project Spotlight highlights our members' work in Central India.
|Network for Conserving Central India||