Harmonising distributed tree inventory datasets across India can fill critical gaps in tropical ecology

Authors

Affiliations

Krishna Anujan

Smithsonian Institution, ForestGEO

Neha Mohanbabu

Institute for Quantitative Social Science, Harvard University

Abhishek Gopal

Andrew Young School of Policy Studies, Georgia State University

Akshay Surendra

Andrew Young School of Policy Studies, Georgia State University

Aparna Krishnan

Andrew Young School of Policy Studies, Georgia State University

Ankitha Jayanth

Andrew Young School of Policy Studies, Georgia State University

Tanaya Nair

Andrew Young School of Policy Studies, Georgia State University

Shasank Ongole

Andrew Young School of Policy Studies, Georgia State University

Mahesh Sankaran

Andrew Young School of Policy Studies, Georgia State University

Important links

• Paper (preprint)
• Dataset

Abstract

Global analyses of tree diversity and function are strongly biased geographically, with poor representation from South Asian forests. Even though data from India - representing two-thirds of South Asia and spanning a wide range of tree-based biomes - exists, a barrier to syntheses is the absence of accessible and standardised data. Further, with increasing human footprint across ecosystems, data from Indian landscapes, with their long history of human-nature interactions is a key link to understand the future of tropical forested landscapes. Combining literature searches with manual data retrieval, we assembled INvenTree, the INdia Tree Inventory dataset, the largest meta-dataset of peer-reviewed publications (n = 465) from 1991-2023 on geolocated plot-based tree inventories of multispecies communities from Indian ecosystems, in aggregate covering 4653.64 ha and all of its vegetated biomes. Using the INvenTree dataset, we show extensive sampling across tropical moist and dry forests, the dominant ecosystem types in the country. We also identify ecological and conservation sampling priority regions based on forest cover and loss and set a blueprint for future sampling efforts in the country. However, most studies are small scale (median = 2 ha) and data across studies is not openly accessible (73.33 % of studies representing 83.43% of the sampled area), potentially hindering inclusion into regional or global syntheses. Significantly, we show majority authorship from within the country; 82.8% of corresponding authors were from India and 73.33% of the studies had all authors affiliated with Indian institutions. Based on extensive Indian scholarship in forest ecology showcased through the INvenTree dataset, we see opportunity for regional collaboration to create scientific inferences that are larger and scalable, while prioritising data and knowledge equity. Harmonising these datasets would contribute enormously to understanding the human dimension of tropical ecology as well as informing regional management and conservation.

Important figures

Citation

 Add to Zotero

@article{anujan_harmonising_inminorrevision,
  title = {Harmonising Distributed Tree Inventory Datasets across {{India}} Can Fill Critical Gaps in Tropical Ecology},
  author = {Anujan, Krishna and Mohanbabu, Neha and Gopal, Abhishek and Surendra, Akshay and Krishnan, Aparna and Jayanth, Ankita and Nair, Tanaya and Ongole, Shasank and Sankaran, Mahesh},
  year = {in minor revision},
  journal = {Biotropica},
  doi = {10.1101/2024.05.18.594774},
  urldate = {2024-09-08},
  copyright = {All rights reserved},
  langid = {english}
}