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Biomass Carbon Stocks and Soil Organic Carbon of Selected Native Tree Species Across Developmental Stages in Semi-Arid Mediterranean Environments

Ghadeer Q. Abu-Eid, Jamal Y. Ayad, Yahia A. Othman

Forest Science and Technology📚 査読済 / ジャーナル2026-06-24#気候科学対象セクター: agriculture
DOI: 10.1080/21580103.2026.2693141
原典: https://doi.org/10.1080/21580103.2026.2693141

🤖 gxceed AI 要約

日本語

本研究は、地中海性半乾燥環境における3種の在来樹種の炭素固定能を発達段階別に評価。幼木の破壊サンプリングと成熟木のアロメトリー式を用い、種・器官・成長段階による炭素蓄積量の違いを明らかにした。最大でPinus halepensisが65 kg/本/年の固定率を示し、植林計画における種選定の重要性が示唆された。

English

This study evaluates carbon sequestration capacity of three native Mediterranean tree species across developmental stages in semi-arid Jordan. Using destructive sampling for seedlings and allometric equations for mature trees, it finds significant variation by species, organ, and age. Pinus halepensis showed the highest annual sequestration rate over 65 kg C tree−1 yr−1, highlighting species selection importance for afforestation.

Unofficial AI-generated summary based on the public title and abstract. Not an official translation.

📝 gxceed 編集解説 — Why this matters

日本のGX文脈において

日本では森林炭素吸収源の評価が重要だが、本論文は地中海性気候に特化しており直接適用は難しい。ただし、乾燥地における種別炭素固定データは、日本の海外植林CDMやJCMプロジェクトの参考になりうる。

In the global GX context

This study provides empirically derived carbon sequestration rates for Mediterranean tree species, filling gaps in IPCC tier 2/3 data for dryland forests. The methodology combining short-term observations and allometric models is transferable to global reforestation projects seeking robust carbon accounting.

👥 読者別の含意

🔬研究者:Provides species-specific carbon sequestration rates and allometric equations for three Mediterranean trees, useful for forest carbon modeling.

🏢実務担当者:Offers quantitative data for selecting tree species in carbon offset projects in semi-arid regions.

🏛政策担当者:Supports national greenhouse gas inventory improvements for the forestry sector in similar climates.

📄 Abstract(原文)

Forest ecosystems play an important role in climate change mitigation through carbon storage in biomass and soils. However, information on species-specific carbon sequestration in Mediterranean forests is still limited. This study evaluated biomass accumulation and carbon sequestration capacity of three native Mediterranean tree species (Quercus coccifera, Pinus halepensis, and Ceratonia siliqua) across different developmental stages, including young seedlings (1–3 years) and mature stands (20–80 years), in northern Jordan. Young seedlings were assessed using destructive biomass sampling, while mature stands were evaluated using species-specific allometric equations based on diameter measurements and soil carbon analyses. In addition, seedling and mature-tree evaluations were conducted under different environmental conditions. Carbon concentration varied significantly among plant organs, with generally higher values in leaves than in stems and roots. During early growth stages, young seedlings of C. siliqua exhibited greater annual carbon sequestration (0.55 kg tree−1year−1) than Q.coccifera and P.halepensis (0.1–0.2 kg tree−1 year−1). In mature stands, P.halepensis showed the greatest aboveground carbon storage, reaching approximately 588 kg C tree−1. Soil organic carbon stocks across the 0–60 cm soil profile varied among species, ranging from 17.9 kg m−2 under Q.coccifera to 24.1 kg m−2 under C.siliqua. Annual carbon sequestration rates derived from short-term field observations and allometric biomass estimations (including both above- and belowground components) differed markedly among species. P.halepensis showed the highest sequestration rate (>65 kg tree−1 yr−1), followed by Q.coccifera (∼23–24 kg tree−1 yr−1), whereas C.siliqua exhibited substantially lower rates (<5 kg tree−1 yr−1). These findings suggest that carbon sequestration capacity in Mediterranean forests varies with species, growth stage, and environmental conditions. This variability highlights the need to consider both species selection and site characteristics when designing restoration and afforestation programs aimed at maximizing long-term carbon storage and climate change mitigation in dryland ecosystems.

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