日本地球惑星科学連合2019年大会

講演情報

[E] ポスター発表

セッション記号 H (地球人間圏科学) » H-CG 地球人間圏科学複合領域・一般

[H-CG28] Implementing Integrated Research for Sustainable Future

2019年5月28日(火) 13:45 〜 15:15 ポスター会場 (幕張メッセ国際展示場 8ホール)

コンビーナ:氷見山 幸夫(北海道教育大学名誉教授)、近藤 昭彦(千葉大学環境リモートセンシング研究センター)、櫻井 武司(国立大学法人東京大学大学院農学生命科学研究科)、阿部 健一(総合地球環境学研究所)

[HCG28-P03] 乾燥半乾燥地域における水資源に基づく牧草地の環境容量およびその脆弱性の評価モデルの開発---モンゴルにおける事例研究

★招待講演

*王 勤学1岡寺 智大1中山 忠暢1額尓 徳尼1Ochirbat Batkhishig2Dorjgotov Battogtokh2Uudus Bayasaikhan3 (1.国立研究開発法人 国立環境研究所、2.モンゴル科学院 地理地質生態系研究所、3.モンゴル国立大学 文理学院)

キーワード:牧草地環境容量、環境脆弱性、乾燥半乾燥地域、水資源

Arid and semi-arid regions cover 41% of the global land area and near 2 billion people (34.7%) live there, where fragile environment is getting more vulnerable due to climate change and human activities. Pasture carrying capacity and its vulnerability can be recognized as the integrated indicators for SDGs in arid and semi-arid regions. Our previous study revealed that climate change in past few decades caused the obvious degradation of permafrost, the water deficit of land-surface, and then the decrease of pasture productivity and carrying capacity. However, beside climate change, land use/cover changes caused by human activities such as urbanization, cultivation and mining industry may also have a large influence on pasture carrying capacity. In such regions, it is essential for us to develop some indicators to be used for sustainable management of pasture ecosystems.

In this study, we have developed an integrated model based on water resources to evaluate the pasture Carrying Capacity (CC), Grazing Pressure (GP) and Vulnerability Index (VI) under the influences of both climate change and land use/cover changes, such as urbanization, cultivation and mining & so on (Figure 1). The input data include the pasture net primary production, land use, gradient of slope and grazing density, etc. In order to evaluate the impact of land use/cover changes, we applied the model to four target areas: urban area (Ulaanbaatar City) and steppe area (Altanbulag Soum) in semi-arid regions of northern Mongolia and mining area (Khanbogd Soum) and desert (Manlai Soum) in arid regions of southern Mongolia, and the estimated result was shown in Figure 2, which indicates:

Carrying Capacity (CC): steppe area > urban area > desert area > mining area
Grazing Pressure (GP): urban area > steppe area > mining area > desert area
Vulnerability Index (VI): urban area > mining area > desert area > steppe area

We also applied the model to the Soum level in Mongolia and found that the areas with high vulnerability expanded rapidly, especially in central Mongolia in last decades. We are now trying to use the model to do sensitivity analysis to parameters, such as water accessibility, harvest index and so on, to be able to evaluate the efficiency of adaptation strategies, such as well construction for enhancing groundwater usage, forage plantation for enhancing harvest index and so on.