Human-induced biospheric carbon sink: Impact from the Taklamakan Afforestation Project

[Geoengineering News]

https://pubmed.ncbi.nlm.nih.gov/41557807/

Authors: Salma Noor, Xun Jiang, Xinyue Wang, Jiani Yang, Sally Newman, King-Fai Li,  Liming Li, Le Yu, Xiyu Li, Yuk L Yung

20 January 2026

Abstract

The Taklamakan Desert, one of the world's largest and driest deserts, has traditionally been considered a biological void. Here, we demonstrate that large-scale ecological restoration is transforming this hyperarid environment into a carbon sink. By analyzing satellite and ground-based data, we find strong seasonal dynamics: During the wet season (Jul to Sep), precipitation increases to 16.3 mm/mo, enhancing vegetation coverage and photosynthetic activity and drawing down atmospheric CO2 by approximately three parts per million (ppm) relative to the dry-season levels. Long-term trends reveal significant increases in vegetation cover (6.8 × 10-4/y) and photosynthetic activity (6.1 × 10-3 W/m2/sr/µm/y), accompanied by a strengthening net CO2 uptake (NEE trend: -5.2 × 10-12 kg/m2/s/y). These changes are spatially concentrated along the desert margins and their timing aligns with implementation of China's Three-North Shelterbelt Program. Our results provide the direct evidence that human-led intervention can effectively enhance carbon sequestration in even the most extreme arid landscapes, demonstrating the potential to transform a desert into a carbon sink and halt desertification. This underscores the critical role of dryland restoration in global carbon management strategies and highlights the Taklamakan Desert as a model for climate change mitigation through nature-based solutions and ecological engineering.

Source: PubMed