Stakeholder perspectives on the effectiveness of governance in red panda conservation programmes in Nepal: a comparative analysis

This paper investigates the views of multi-stakeholders on the governance quality of existing forest management strategies for red panda (Ailurus fulgens) protection in Nepal, focusing on forest governance in general, red panda conservation programmes and natural habitat protection in particular. The study deployed two surveys in August and September 2020. The first survey was conducted online for the stakeholders with internet access; for those without, it was conducted over the phone. While the results reveal almost similar perspectives among the stakeholders regarding the effectiveness of the red panda management approaches, they differ significantly between the online survey and telephonic survey, in terms of the relative scores given to these initiatives. In depth, follow-up interviews revealed that marginalised groups had little access to income generation from conservation activities and few capacity-building opportunities. These findings indicate that while management strategies for red panda conservation were generally considered effective by online survey participants which are generally more privileged, this is less effective for marginalised people. Local people, who are typically resource-poor and reliant on the forest, continue to endure inequitable resource distribution and benefit sharing. Consequently, greater attention should be paid to balancing the conservation needs and basic needs of forest-dependent communities through capacity building, income generation and alternative sources of livelihood

Forest Governance in Nepal concerning Sustainable Community Forest Management and Red Panda Conservation

This paper investigates issues confronting forest management and sustainability, focusing on the governance of the community forest user group (CFUG) initiative in Nepal. The paper begins with a literature review to give a general overview of the historical and current situation of forest governance in Nepal. It explores the historical impacts of unsustainable logging in Nepal and the World Bank Report, which both investigated and explored avenues for improving the forest situation, including community forestry. The paper outlines the development of community forestry, the legislative, regulatory, and governance frameworks underpinning this unique system of community-driven forest management, and its relationship to sustainable forest management (SFM). SFM in turn has engendered a market for sustainably derived timber and labeling systems for ‘good’ wood. The paper continues by providing an analysis of stakeholder attitudes regarding the current forest governance situation in Nepal. Furthermore, it provides another small case study on how such standards might be applied in the local community context of protecting Nepal’s Red Panda while simultaneously delivering sustainable forest management and community development. It concludes with a discussion on the need for governance standards for forest management and community forestry in Nepal

Evaluating the governance of sustainable development: The quality and legitimacy of the blue economy

This chapter analyses multi-stakeholder perspectives on the governance and sustainability of different blue economy initiatives from both developed and developing countries. The study was conducted in 2020 using an anonymous online survey following an analytical method based on principles, criteria and indicators. Respondents rated the quality of these initiatives on a Likert scale (1-5) based on 11 indicators. The results show that the Sustainable Ocean Initiative received the highest score, while Marine permaculture scored the lowest. blue economy initiatives were considered inclusive by respondents; however, resources and capacity were deemed insufficient. Respondents from the Global South (developing countries) rated the initiatives higher than those from the Global North (developed countries) perhaps because developing countries are the prime beneficiaries of these programmes and receive more funding and assistance. These findings support policy and decision-makers formulating policies based on stakeholders’ opinions and focussing on low-scoring initiatives. The blue economy is a growing sector with high potential for sustainable development; however, various factors, notably the COVID-19 pandemic, are obstructing its advancement. Therefore, effective communication, collaborative efforts and substantial and sustainable finance are vital for ensuring the sustainability of the blue economy in both the Global North and the Global South

Using precipitation, vertical root distribution, and satellite‐retrieved vegetation information to parameterize water stress in a Penman‐Monteith approach to evapotranspiration modeling under Mediterranean climate

Abstract Recent studies have shown that global Penman‐Monteith equation based (PM‐based) models poorly simulate water stress when estimating evapotranspiration (ET) in areas having a Mediterranean climate (AMC). In this study, we propose a novel approach using precipitation, vertical root distribution (VRD), and satellite‐retrieved vegetation information to simulate water stress in a PM‐based model (RS‐WBPM) to address this issue. A multilayer water balance module is employed to simulate the soil water stress factor (SWSF) of multiple soil layers at different depths. The water stress factor (WSF) for surface evapotranspiration is determined by VRD information and SWSF in each layer. Additionally, four older PM‐based models (PMOV) are evaluated at 27 flux sites in AMC. Results show that PMOV fails to estimate the magnitude or capture the variation of ET in summer at most sites, whereas RS‐WBPM is successful. The daily ET resulting from RS‐WBPM incorporating recommended VI (NDVI for shrub and EVI for other biomes) agrees well with observations, with R2=0.60 ( RMSE = 18.72 W m−2) for all 27 sites and R2=0.62 ( RMSE = 18.21 W m−2) for 25 nonagricultural sites. However, combined results from the optimum older PM‐based models at specific sites show R2 values of only 0.50 ( RMSE = 20.74 W m−2) for all 27 sites. RS‐WBPM is also found to outperform other ET models that also incorporate a soil water balance module. As all inputs of RS‐WBPM are globally available, the results from RS‐WBPM are encouraging and imply the potential of its implementation on a regional and global scale

Analyzing NPP Response of Different Rangeland Types to Climatic Parameters over Mongolia

Global warming threatens ecosystem functions, biodiversity, and rangeland productivity in Mongolia. The study analyzes the spatial and temporal distributions of the Net Primary Production (NPP) and its response to climatic parameters. The study also highlights how various land cover types respond to climatic fluctuations from 2003 to 2018. The Boreal Ecosystem Productivity Simulator (BEPS) model was used to simulate the rangeland NPP of the last 16 years. Satellite remote sensing data products were mainly used as input for the model, where ground-based and MODIS NPP were used to validate the model result. The results indicated that the BEPS model was moderately effective (R2 = 0.59, the Root Mean Square Error (RMSE) = 13.22 g C m−2) to estimate NPP for Mongolian rangelands (e.g., grassland and sparse vegetation). The validation results also showed good agreement between the BEPS and MODIS estimates for all vegetation types, including forest, shrubland, and wetland (R2 = 0.65). The annual total NPP of Mongolia showed a slight increment with an annual increase of 0.0007 Pg (0.68 g C per meter square) from 2003 to 2018 (p = 0.82) due to the changes in climatic parameters and land cover change. Likewise, high increments per unit area found in forest NPP, while decreased NPP trend was observed in the shrubland. In conclusion, among the three climatic parameters, temperature was the factor with the largest influence on NPP variations (r = 0.917) followed precipitation (r = 0.825), and net radiation (r = 0.787). Forest and wetland NPP had a low response to precipitation, while inter-annual NPP variation shows grassland, shrubland, and sparse vegetation were highly sensitive rangeland types to climate fluctuations

Synergizing community-based forest monitoring with remote sensing: a path to an effective REDD+ MRV system

Abstract Background The reliable monitoring, reporting and verification (MRV) of carbon emissions and removals from the forest sector is an important part of the efforts on reducing emissions from deforestation and forest degradation (REDD+). Forest-dependent local communities are engaged to contribute to MRV through community-based monitoring systems. The efficiency of such monitoring systems could be improved through the rational integration of the studies at permanent plots with the geospatial technologies. This article presents a case study of integrating community-based measurements at permanent plots at the foothills of central Nepal and biomass maps that were developed using GeoEye-1 and IKONS satellite images. Results The use of very-high-resolution satellite-based tree cover parameters, including crown projected area (CPA), crown density and crown size classes improves salience, reliability and legitimacy of the community-based survey of 0.04% intensity at the lower cost than increasing intensity of the community-based survey to 0.14% level (2.5 USD/ha vs. 7.5 USD/ha). Conclusion The proposed REDD+ MRV complementary system is the first of its kind and demonstrates the enhancement of information content, accuracy of reporting and reduction in cost. It also allows assessment of the efficacy of community-based forest management and extension to national scale

Reaching over the gap: a review of trends in and status of Red Panda research over 193 years (1827-2020)

The red panda is a unique species taxonomically known for its peculiar biological and ecological characteristics, and extreme attractiveness. Despite being highly significant from conservation, scientific and economic perspectives, this species has experienced a declining population in the wild. Thus, to direct further research priorities and conservation actions and assess gaps in the current research trend of this species, a systematic literature review was conducted covering 175 journal articles published in English over 193 years (1827–2020). This review revealed that (1) the biological aspect was highly studied compared to other thematic areas of red panda (2) captive-based studies are relatively higher than the studies based in wild populations (3) China is leading the red panda studies amongst all red panda range (4) The universities were found contributing more to red panda studies than other institutions. Surprisingly, we found that the researchers from the non-range country were leading red panda study than those from range countries. Our review highlighted the need of prioritising studies in underrepresented locations and understudied thematic areas focusing on the assessment of climate change impact, bamboo distribution status, ecosystem services of red panda habitat, behavior and movement ecology, population estimation, and metapopulation dynamics. We urge landscape-level studies and long-term population monitoring. Besides, we also suggest the documentation and evaluation of the effectiveness of ongoing red panda-focused conservation programs. We also stress the need for strengthening the capacity of institutions and people from range countries

MOESM1 of Synergizing community-based forest monitoring with remote sensing: a path to an effective REDD+Â MRV system

Additional file 1. Appendix S1: Delineated community forest in Kayar Khola watershed, Chitawan based on handing over time