Yagya P. Adhikari scite author profile

The amount of carbon stored in deadwood is equivalent to about 8% of global forest carbon stocks 1 . Deadwood decomposition is largely governed by climate [2][3][4][5] with decomposer groups, such as microbes and insects, contributing to variations in decomposition rates 2,6,7 . At the global scale, the contribution of insects to deadwood decomposition and carbon release remains poorly understood 7 . Here we present a field experiment of wood decomposition across 55 forest sites on six continents. We find that deadwood decomposition rates increase with temperature, with the strongest temperature effect at high precipitation levels. Precipitation affects decomposition rates negatively at low temperature and positively at high temperatures. As net effect, including direct consumption and indirect effects via interactions with microbes, insects accelerate decomposition in tropical forests (3.9% median mass loss per year).In temperate and boreal forests we find weak positive and negative effects with a median mass loss of 0.9% and -0.1% per year, respectively. Furthermore, we apply the experimentally derived decomposition function to a global map of deadwood carbon synthesised from empirical and remote sensing data. This allows for a first estimate of 10.9 ± 3.2 Pg yr -1 of carbon released from deadwood globally, with 93% originating from tropical forests. Globally, the net effect of insects accounts for a carbon flux of 3.2 ± 0.9 Pg yr -1 or 29% of the total carbon released from deadwood, which highlights the functional importance of insects for deadwood decomposition and the global carbon cycle.

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Micro-site conditions of epiphytic orchids in a human impact gradient in Kathmandu valley, Nepal

Adhikari

Fischer

2012

J. Mt. Sci.

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Ethnomedicinal landscape: distribution of used medicinal plant species in Nepal

Kunwar

Baral

Luintel

et al. 2022

J Ethnobiology Ethnomedicine

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Background The risk of losing traditional knowledge of medicinal plants and their use and conservation is very high. Documenting knowledge on distribution and use of medicinal plants by different ethnic groups and at spatial scale on a single platform is important from a conservation planning and management perspective. The sustainable use, continuous practice, and safeguarding of traditional knowledge are essential. Communication of such knowledge among scientists and policy makers at local and global level is equally important, as the available information at present is limited and scattered in Nepal. Methods In this paper, we aimed to address these shortcomings by cataloguing medicinal plants used by indigenous ethnic groups in Nepal through a systematic review of over 275 pertinent publications published between 1975 and July 2021. The review was complemented by field visits made in 21 districts. We determined the ethnomedicinal plants hotspots across the country and depicted them in heatmaps. Results The heatmaps show spatial hotspots and sites of poor ethnomedicinal plant use documentation, which is useful for evaluating the interaction of geographical and ethnobotanical variables. Mid-hills and mountainous areas of Nepal hold the highest number of medicinal plant species in use, which could be possibly associated with the presence of higher human population and diverse ethnic groups in these areas. Conclusion Given the increasing concern about losing medicinal plants due to changing ecological, social, and climatic conditions, the results of this paper may be important for better understanding of how medicinal plants in use are distributed across the country and often linked to specific ethnic groups.

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Host tree utilization by epiphytic orchids in different land-use intensities in Kathmandu Valley, Nepal

Adhikari

Fischer

2012

Plant Ecol

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Distribution, use, trade and conservation of Paris polyphylla Sm. in Nepal

Kunwar

Adhikari

Sharma

et al. 2020

Global Ecology and Conservation

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Yagya P. Adhikari

The contribution of insects to global forest deadwood decomposition

Micro-site conditions of epiphytic orchids in a human impact gradient in Kathmandu valley, Nepal

Ethnomedicinal landscape: distribution of used medicinal plant species in Nepal

Host tree utilization by epiphytic orchids in different land-use intensities in Kathmandu Valley, Nepal

Distribution, use, trade and conservation of Paris polyphylla Sm. in Nepal

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