Your search keyword '"Pandey, Rajiv"' showing total 6 results

1. Soil organic carbon estimation along an altitudinal gradient of chir pine forests in the Garhwal Himalaya, India: A field inventory to remote sensing approach.

Author

Kumar, Munesh, Kumar, Amit, Thakur, Tarun Kumar, Sahoo, Uttam Kumar, Kumar, Rahul, Konsam, Bobbymoore, and Pandey, Rajiv

Subjects

REMOTE sensing, NORMALIZED difference vegetation index, CARBON in soils, PINE, SOIL depth

Abstract

Chir pine (Pinus roxburghii, Sarg.) forests are dominant in the Indian Himalayan region and act as a huge carbon (C) sink. However, measuring the C sink in soil is complex and time‐intensive, and therefore the present study attempts to estimate the soil organic carbon (SOC) through a remote sensing (RS) approach. We estimated SOC stock of chir pine forests along an altitudinal gradient at three soil depths (0–30, 30–60 and 60–100 cm) in the Garhwal Himalaya, Uttarakhand. Fourteen forest stands at four altitudes, viz., <1000 m above sea level (m asl), 1001–1400 m asl, 1401–1800 m asl and >1801 m asl were surveyed and served for data collection. A model for predicting SOC was developed through stepwise regression analysis based on vegetation information and altitude as independent variables with the field data on SOC. For vegetation information, we used the normalized difference vegetation index (NDVI) measured through remote sensing (RS). The mean SOC stock up to 100 cm depth was increased with increasing altitude and were in the order of 69.66 ± 19.86, 85.27 ± 17.53, 95.68 ± 7.90 and 148.41 ± 71.39 million g ha−1 (million gram per hectare) for <1000, 1001–1400, 1401–1800 and >1801 m_asl, respectively. The result showed that NDVI was a good predictor for SOC estimation. The model predicted SOC stock between 57 and 152 million g ha−1 with a mean of 93 million g ha−1, which was close to the SOCs from field inventory. Therefore, RS could be used to precisely map the SOC stock in the chir pine forests of the Himalayas through NDVI and provide information to policymakers for forest management. [ABSTRACT FROM AUTHOR]

Published

2022

2. Vegetation Characteristics Based Climate Change Vulnerability Assessment of Temperate Forests of Western Himalaya.

Author

Pandey, Rajiv, Sharma, Jyoti, Singh, Rajat, Rawat, Monika, Saklani, Himani, Tomar, Pankaj Kumar, Tiwari, Laxmikant, Bhatt, Indra Dutt, Chand, Tara, Bala, Nirmalya, Panwar, Vijender Pal, and Semeraro, Teodoro

Subjects

TEMPERATE forests, FOREST microclimatology, CONIFEROUS forests, CLIMATE change, ATMOSPHERIC methane

Abstract

Forests are under stress due to variety of climatic and non-climatic factors. Therefore for suitably managing the forests, vulnerability of the forests needs to be understood. The present paper attempts to estimate the vulnerability of various temperate forests of Western Himalaya due to climate change by analyzing the patterns of different taxonomical indices, based on primary data i.e., vegetation data. The paper presents a novel approach for climate change vulnerability assessment based on field data through a bottom-up approach. The vulnerability of the forests was assessed through the IPCC framework by suitably selecting indicators (taxonomy indices and climatic parameters) for the three dimensions of vulnerability i.e., exposure, sensitivity and adaptive capacity. The field data were collected from 17 different temperate forests distributed at the elevation "1600 to 3500 m" in Uttarakhand and Himachal Pradesh, India. Abundance and richness for each forest were collected by randomly laying ten quadrats of size 0.1 ha each. The analysis resulted into identifying the most and the least vulnerable temperate forests of the western Himalaya to climate change. The analysis showed that the Neoza Pine; Moist Deodar; Ban Oak and Dry Broadleaved and Coniferous forest were the most vulnerable forests in the Himalayan temperate forests due to climate change. Moreover, the variation in the levels of the vulnerability status of the selected forests was insignificant with elevational range as well as exposure to climate. The proposed method will serve for vulnerability estimation of forests due to climate change based on the actual realization of the species in the field. [ABSTRACT FROM AUTHOR]

Published

2022

3. Fuelwood and fodder consumption patterns among agroforestry-practicing smallholder farmers of the lower Himalayas, India.

Author

Nagar, Bhuvnesh, Rawat, Sushma, Pandey, Rajiv, Kumar, Munesh, and Alatalo, Juha M.

Subjects

AGROFORESTRY, FUELWOOD, CONSUMPTION (Economics), ANIMAL feeds, NATURAL resources, MULTIPURPOSE trees

Abstract

Trees are important as a source of fuelwood and fodder for rural populations in the Himalayas. This paper analysed the fuelwood and fodder consumption patterns of rural households in 16 villages in Alaknanda Valley, Uttarakhand, northern India. The results showed that consumption of biomass from agroforestry and other sources varied significantly in different seasons. The fuelwood consumption requirement from agroforestry was an estimated 2.05, 0.63 and 1.24 kg/capita/day in winter, summer and rainy season, respectively, while the corresponding values for fuelwood from other sources were 1.16, 0.34 and 0.65 kg/capita/day, respectively. The fodder from agroforestry also contributed an estimated value of 12.96, 10.35 and 7.65 kg/adult cattle unit/day in winter, summer and the rainy season, respectively, while other sources contributed 3.53, 4.76 and 11.58 kg/ACU/day, respectively. These findings highlight the importance of agroforestry comprising suitable tree species for fuelwood and fodder in mountainous regions. Agroforestry can be a potential strategy to enhance resilience to climate change among smallholders who are fully dependent on natural resources, by reducing the risk of total crop yield losses, providing a more stable source of fuelwood and fodder, and reducing the time and energy spent on collecting resources from outside the smallholding or farm. [ABSTRACT FROM AUTHOR]

Published

2022

4. Community perspectives on conservation of water sources in Tarkeshwar sacred groves, Himalaya, India.

Author

Jana, Purna, Pandey, Rajiv, Semeraro, Teodoro, Alatalo, Juha M., Areteno, Roberta, Todaria, Nagendra P., and Tripathi, Ravi

Subjects

WATER conservation, FOREST management, ECOSYSTEM services, BIODIVERSITY conservation, EDUCATIONAL equalization, GENDER

Abstract

Sacred groves have significance in socio-culture and biodiversity conservation. This study evaluated local people's perceptions regarding conservation of sacred groves for water services, through willingness-to-pay (WTP), willingness-to-accept (WTA) and willingness-to-labour-work (DLP). Data were collected through a pre-tested questionnaire from 107 randomly selected households in 18 villages of Uttarakhand. The villages were categorised into 3 classes (core, nearby, faraway) based on proximity to the forests. The contingent-valuation method was used to evaluate WTP [Rs 3,802 (?$57)] and WTA [Rs 38,224 (?$571)] for water as an ecosystem service and statistical analyses were performed to evaluate whether factors such as gender, age, household income and location explained differences in the parameters. It was found that gender had a significant impact on WTP, with women having higher WTP, and that location had significant impact on WTA. The result shows that WTA increased with increasing distance from the sacred groves (Rs 43,077+21,139 in faraway villages and Rs 35,323+10,483 in core villages). The results indicated that consideration of gender inequality and education status in villages should be included in planning and decision making about participatory forest management of sacred groves. These findings facilitate forest resource management in mountains and provide guidance for programmes and policies dealing with irrigation, drinking water and community development. [ABSTRACT FROM AUTHOR]

Published

2021

5. River rafting in mountainous regions of Uttarakhand: Impacts, suggested mitigation measures and sustainability.

Author

Mahapatra, Parth, Pandey, Rajiv, and Pradhan, Sonali

Subjects

RAFTING (Sports), MOUNTAINS, BIOTIC communities, ECOTOURISM, ACQUISITION of data, QUALITATIVE research

Abstract

Uttarakhand state in India is well known for its mountainous ecosystems, traditional communities and a variety of ecotourism destinations. Among various tourism activities, River Rafting along the banks of the Ganges River has increased tremendously for two decades, and has had unprecedented impacts on the traditional communities and the bio-diversity. Therefore, it is meaningful to do a comprehensive study on the various impacts associated with river rafting so as to suggest the pathways to achieve the environmental sustainability in this region. In this study, we collected primary data from randomly selected population units across all stake holders such as local people (n = 100), and camp personnel (n = 22), through a pre-tested questionnaire survey between August 2009 and May 2010. The questionnaire contains issues on culture, social, economic, institutional and associated perceived impacts on pollution and biodiversity including views for sustainability. Secondary information was also collected from various sources and government records to supplement and strengthen the analysis. The impacts were analyzed qualitatively through a ranking mechanism to facilitate the decision making process. The perception of the interviewee about the various possible impacts of rafting was discussed with mitigating mechanism. The ranking analysis as per collected data reveals that economy and education of local community was improved significantly; however aquatic and terrestrial fauna, social cohesion and pollution (water, air, land) were significantly deteriorated. The results show that the existing practices are not sufficient to address the adverse impacts. Improvement in practices is necessary, mainly in the policy regime. Based on the analysis, some measures are recommended on how to protect community interest and environment with the development of river rafting as an ecotourism opportunity. [ABSTRACT FROM AUTHOR]

Published

2012

6. Forest soil nutrient stocks along altitudinal range of Uttarakhand Himalayas: An aid to Nature Based Climate Solutions.

Author

Kumar, Amit, Kumar, Munesh, Pandey, Rajiv, ZhiGuo, Yu, and Cabral-Pinto, Marina

Subjects

*CARBON sequestration in forests, *FOREST dynamics, *CARBON in soils, *FOREST management, *SOIL dynamics, *FOREST soils, *MOUNTAIN soils

Abstract

• The soil stoichiometric ratios (C:N:P) were invariant in lower Himalaya. • The studied region has low C:N ratio indicating prospect for N 2 O emission. • Abies species have a higher C sequestration potential and carbon credit. • The findings are helpful to understand nutrient dynamics in forest. Understating of forest functioning is crucial for ensuring the sustainable flow of forest ecosystem services. Climate regulation service of a forest ecosystem can be ensured through emission reduction by increasing carbon sequestration in forests. However, understanding about the functioning of forests for carbon sequestration is constrained due to lack of information on nutrient stocks and stoichiometry of soils of forests of India. Present study focuses to examine the stoichiometry of major nutrients; nitrogen (N), phosphorus (P), carbon (C) of forest soil to understand the dynamics of the forests of Uttarakhand, India. The study also attempted to supplement the information about the soil carbon sequestration potential of important tree species of the forest. Soil samples were collected randomly for the evaluation of physico-chemical characteristics and stoichiometry of forest soil at four altitudinal ranges i.e., <1000, 1000–1500, 1500–2000, and >2000 m a.s.l in the Himalayan region of Uttarakhand, India. The analysis shows that total nitrogen, total phosphorous, and soil organic carbon contents in forest soil were 0.35 ± 0.11%, 0.10 ± 0.04% and 3.36 ± 0.84%, respectively, which increases with altitude. The stoichiometric ratios viz., C:N:P, N:P, C:N, and C:P, and N:P were reported of 51.6:5.4:1, 4.30 ± 2.39, 9.60 ± 1.48, and 41.94 ± 23.35, respectively which were invariant with altitude. The low C:N ratio may be attributed to either increase in the nitrous oxide (N 2 O) emissions with an increase in nitrogen, or low in carbon stock leading to decrease in carbon dioxide (CO 2) and methane (CH 4) emissions. Moreover, the soil C sequestration potential in the forest tree species follow the order of Abies pindrow > Cedrus deodara > Quercus leucotrichophora > Pinus roxburghii. The information of the study would facilitate for broadening the understanding about the soil properties and stoichiometry of forest ecosystem and would provide an aid to forest management besides contributing to the mitigations strategies of the forests. [ABSTRACT FROM AUTHOR]

Published

2021