Forest-stand structure and treeline dynamics of Himalayan Fir over the last four centuries in Kashmir, western Himalaya

Jain S, Chinthala BD, Ranhotra PS, Pandey P, Shekhar M, Grießinger J, Joshi R, Hamid M, Dar FA, Shafee F, Khuroo AA, Singh CP, Bajpai R, Bräuning A (2025)

Publication Type: Journal article

Publication year: 2025

Journal

Dendrochronologia Elsevier

Book Volume: 94

Article Number: 126442

DOI: 10.1016/j.dendro.2025.126442

Abstract

The Himalaya supports a rich biodiversity and forest ecosystems providing important ecological services for a vast human population. Owing to the fragility of the Himalaya to environmental changes, precise knowledge about long-term forest functioning under warming-induced climate changes is crucial for future sustainability of forest resources. Treeline responses and changes in the forest-stand structure are indicators of ecosystem response to climate change. Using tree-ring data and tree size parameters, we investigated age-girth-height relationships by developing linear and nonlinear regression models, and calculated treeline shifts based on age-altitude relationships of Abies pindrow (Himalayan Fir) over the last four centuries from the Daksum-Sinthan (DK-SN) and Gulmarg (GUL) sites of Kashmir, western Himalaya. The Fir tree reached its upper elevation limit of >3500 masl by the mid-20^th century, with average shift rates over 360 years of ∼1.42 and 1.79 m/yr at GUL and DK-SN, respectively. The recorded highest shift-rate of Fir occurred during the 17^th century, coinciding with Little Ice Age climatic episode. Subsequent decline in shift-rates to <1 m/yr, relate to low-moisture conditions during the pre-monsoon months (April-June) hampering seedling establishment. Fir trees showed high recruitment rate during the 19^th and 20^th centuries at the study sites, as indicated by >50 % population of Fir trees younger than 200 years of age. Warming of spring season and availability of required soil-moisture probably helped to tree recruitment during last 200 years. The near stagnant upper limit of the Fir since last few decades at both sites hints towards the role of non-climatic factors including topography, land-surface-processes, and possibly anthropogenic activities. Our study provides crucial insights on the much-neglected long-term forest-stand dynamics and environmental changes in the treeline ecotone, with wide implications for biodiversity conservation and ecosystem restoration under the pressures of climatic and non-climatic factors.

Authors with CRIS profile

Bency David Chinthala Lehrstuhl für Geographie (Physische Geographie) Achim Bräuning Lehrstuhl für Geographie (Physische Geographie)

Involved external institutions

North-Eastern Hill University / نارتھ ایسٹ ہل یونیورسٹی Birbal Sahni Institute of Palaeosciences Universität Salzburg (Paris Lodron Universität Salzburg) G.B. Pant Institute of Himalayan Environment and Development (GBPIHED) University of Kashmir / कश्मीर विश्वविद्यालय (hi), কাশ্মীর বিশ্ববিদ্যালয়

How to cite

APA:

Jain, S., Chinthala, B.D., Ranhotra, P.S., Pandey, P., Shekhar, M., Grießinger, J.,... Bräuning, A. (2025). Forest-stand structure and treeline dynamics of Himalayan Fir over the last four centuries in Kashmir, western Himalaya. Dendrochronologia, 94. https://doi.org/10.1016/j.dendro.2025.126442

MLA:

Jain, Stuti, et al. "Forest-stand structure and treeline dynamics of Himalayan Fir over the last four centuries in Kashmir, western Himalaya." Dendrochronologia 94 (2025).

BibTeX: Download