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Campus as Carbon Sink

キャンパスを炭素吸収源として (AI 翻訳)

Kelsey S. Bitting, Madison Eaton

Consilience📚 査読済 / ジャーナル2026-07-17#炭素会計Origin: US
DOI: 10.52214/consilience.vi28.13759
原典: https://doi.org/10.52214/consilience.vi28.13759

🤖 gxceed AI 要約

日本語

この研究は、大学キャンパス内の土壌炭素隔離に及ぼす土地被覆と土壌圧縮の影響を調査した。芝生、多年生花壇、一年生花壇の3つの土地被覆タイプを比較し、それぞれの土壌有機炭素(SOC)含有量を測定した。結果、多年生花壇は芝生よりSOCが高く(平均8.02%対6.37%)、一年生花壇は堆肥投入により23.97%と最も高かった。芝生を多年生花壇に転換することで、キャンパスの炭素隔離能を高め、大学のカーボンニュートラル目標に貢献できる可能性が示された。

English

This study examines how land cover and soil compaction affect soil carbon sequestration on a university campus in the Southeastern U.S. Measurements of soil organic carbon (SOC) in grassy lawns, perennial beds, and annual beds showed that perennial beds have higher SOC (8.02%) than lawns (6.37%), while annual beds had the highest (23.97%) due to compost inputs. Converting lawns to perennial beds could enhance campus carbon sequestration and support carbon neutrality goals.

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

日本の大学でもカーボンニュートラル目標を掲げる事例が増えており、キャンパス内の緑地管理による土壌炭素隔離の検討は有用である。SSBJや有報でのGHG排出削減策として、直接的なオフセット手法ではないが、敷地内の炭素吸収源として位置づけることができる。

In the global GX context

While this is a small-scale case study, it provides empirical evidence on the potential of campus land management for carbon sequestration. For universities globally seeking carbon neutrality, converting lawns to perennial beds offers a practical, low-cost option. It also highlights the need for standardized methods to quantify soil carbon in institutional sustainability reporting.

👥 読者別の含意

🔬研究者:This paper provides empirical data on the relationship between land cover and soil carbon in a controlled campus setting, useful for carbon sequestration studies.

🏢実務担当者:Campus sustainability managers can use these findings to prioritize conversion of lawns to perennial beds as a carbon mitigation strategy.

🏛政策担当者:Policymakers in higher education sustainability programs may consider incorporating soil carbon sequestration into campus carbon neutrality plans.

📄 Abstract(原文)

Soils are a major carbon sink, and as atmospheric carbon emissions continue to increase around the world, attention is being turned to soils as a possible way to offset these emissions. For institutions like colleges and universities that manage significant acreage and are increasingly seeking avenues toward carbon neutrality, quantifying and enhancing the amount of carbon held in campus soil may be a valuable addition to existing sustainability efforts. This study investigates how land cover and soil compaction affect soil carbon sequestration on a college campus in the Southeastern U.S. Areas of different land covers in one campus neighborhood were mapped using GIS software to determine predominant landscaping conditions. Grassy lawns covered 67.4% of the study area, perennial beds covered 22.9%, and annual beds covered 2.1%, making up the vast majority of permeable surface area. Compaction measurements and soil samples were taken from randomly selected points within each of these three land cover types. Soil samples were analyzed using Loss-on-Ignition (LOI) techniques to determine the percentage of soil organic carbon (SOC) by mass. Findings showed that compaction is strongly correlated with land cover, prohibiting the distinction between the impact of land cover vs. compaction on SOC content. Perennial beds were moderately compacted and contain more SOC than grassy lawns (average 8.02% vs. 6.37%) which were highly compacted. Annual beds were minimally compacted and showed the highest average SOC values of 23.97%, likely due to large inputs of compost rather than long-term biological soil carbon sequestration. The results of this study suggest that conversion of grassy lawns into perennial plant beds would increase SOC sequestration potential on campus, thereby contributing to university carbon neutrality goals by sequestering atmospheric carbon in the ground.

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