JOURNAL ARTICLE
Vulnerability of Global Pine Forestry's Carbon Sink to an Invasive Pathogen–Vector System.
Published In: Global Change Biology, 2024, v. 30, n. 12. P. 1 1 of 3
Database: Academic Search Ultimate 2 of 3
Authored By: Zhou, Jiao; Du, Jingjing; Bonifácio, Luís; Yin, Wandong; Huang, Lin; Ning, Jing; Han, Dongbo; Hu, Jiafu; Song, Wei; Zhao, Lilin 3 of 3
Abstract
The substantial contribution of northern forest growth to the global increase of biomass carbon stock is well documented. However, the ecological consequences of pest‐ and disease‐related losses in these forests have not received comparable attention. This study highlights that pine species are major contributors to carbon stocks in Northern Hemisphere. The total carbon storage of Pinus in the Northern Hemisphere was estimated at 70,726 teragrams of carbon (TgC; 17.7% of the total forest carbon 478,012 TgC), accounting for 4.9%, 28.4%, and 12.5% of the total carbon storage in the forests of Asia, Europe, and North America, respectively. However, pine trees were under threat from an invasive complex involving the pine wood nematode (Bursaphelenchus xylophilus) and Japanese pine sawyer beetle (Monochamus spp.). Since 1977, this complex resulted in a carbon sink deficit of 1857 TgC (18% of the carbon currently stored in Europe's live tree biomass) in northern pine ecosystems. The carbon losses attributed to B. xylophilus exceeded those caused by wildfires, which are typically regarded as the primary factor of forest disturbances. Furthermore, the contributions of environmental variables indicate that the expected northward shift in precipitation patterns will exacerbate B. xylophilus threats, endangering 78% of the boreal forests across Eurasia by 2100. Among these high‐risk areas, 62% contributed significantly to global carbon sink, and 42% was protected forests. Following the present trend, carbon losses caused by the B. xylophilus complex could exceed 39% of the total carbon storage in terrestrial ecosystems. This study provides comprehensive datasets that detail the global distribution and high‐risk habitats of pine species and B. xylophilus vector beetles in affected countries. Our findings underscore the substantial risk of carbon losses posed by B. xylophilus to northern pine forests, with potential implications for global carbon dynamics and the achievement of international goals related to "carbon peak" and "carbon neutrality." [ABSTRACT FROM AUTHOR]
Additional Information
- Source:Global Change Biology. 2024/12, Vol. 30, Issue 12, p1
- Document Type:Article
- Subject Area:Chemistry
- Publication Date:2024
- ISSN:1354-1013
- DOI:10.1111/gcb.17614
- Accession Number:181922353
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