基于区域水平衡的喀尔巴阡盆地中部平原气候变化的环境威胁

IF 1.2 Q3 GEOGRAPHY Geographica Pannonica Pub Date : 2022-01-01 DOI:10.5937/gp26-37271
T. Quang, Z. Fehér, Norbert Túri, János Rakonczai
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引用次数: 2

摘要

气候变化是当今世界面临的重大环境挑战。它的影响已经在多个方面体现出来。在未来,我们也将不得不适应它的影响,因为我们的农业和日常生活。在我们的研究中,我们利用半个多世纪的数据,通过对农业影响最大的景观变化和地下水资源的变化,评估了匈牙利低地地区的气候敏感性。我们量化了在中部(5-10万km2),由于气候影响,地下水资源呈现出3-5 km3/年的正负方向变化。这大大超过了人为用水(匈牙利每年的总用水量约为5立方千米),因此气候的影响是区域水资源变化的决定性因素。在匈牙利的两个微区域,使用MIKE-SHE模型模拟了水循环的未来变化。我们已经发现,在我们研究中呈现的小集水区水平上,由于预期的温度升高(主要是由于蒸散量的增加),水资源短缺每年增加数亿立方米,这是目前供水解决方案无法弥补的。模型模拟证实了以前的结果,表明地下水运动即使在低地景观中也起着非常重要的作用。基于我们的研究,我们希望引起决策者和农业专家的注意,即目前的方法(灌溉、区域调水)不足以成功适应气候变化。因此,在不断变化的气候中,造成真正威胁的不是有限的降水,而是不适当的农业做法。在研究的基础上,提出了农业适应气候变化的建议。
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Climate change as an environmental threat on the central plains of the Carpathian basin based on regional water balances
Climate change is an essential environmental challenge nowadays. Its effects are already being felt in multiple ways. In the future, we will also have to adapt to its effects because of our farming and our daily lives. In our research, we assessed the climate sensitivity of the lowland areas of Hungary through the changes in landscapes and the changes in groundwater resources that have the greatest impact on agriculture, using data from more than half of a century. We have quantified that at the mid-territory level (5-10 thousand km2) the groundwater resources show up to 3-5 km3/year changes in both positive and negative directions due to climatic effects. This significantly exceeds the anthropogenic water uses (the total water use of Hungary is about 5 km3 per year), so the effect of climate is the determining factor in the changes of regional water resources. Future changes in water circulation were modelled using the MIKE-SHE model in two micro-regions in Hungary. We have found that already at the level of the small catchments presented in our study, the water shortage increases by hundreds of millions of m3 per year due to the expected increase in temperature (mainly due to the increase in evapotranspiration), which cannot be compensated by current water supply solutions. Model simulations have confirmed previous results showing that groundwater movements play a very important role even in lowland landscapes. Based on our research, we would like to draw the attention of decision-makers and agricultural experts to the fact that current methods (irrigation, regional water transfers) are not sufficient for successful adaptation to climate change. So, it is not the limited precipitation but the inappropriate agricultural practices that cause a real threat in a changing climate. Based on our research, we have made a proposal for the adaptation of agriculture to climate change.
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来源期刊
CiteScore
2.80
自引率
11.10%
发文量
8
审稿时长
4 weeks
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