Soil moisture retention on slopes under different agricultural land uses in hilly regions of Southern Transdanubia

IF 1.4 Q2 GEOGRAPHY

Hungarian Geographical Bulletin Pub Date : 2020-10-02 DOI:10.15201/HUNGEOBULL.69.3.3

G. Nagy, Lóczy Dénes, S. Czigány, E. Pirkhoffer, S. Fábián, Rok Ciglic, Mateja Ferk

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引用次数: 7

Abstract

Increasingly severe weather extremes are predicted as one of the consequences of climate change. According to climatic models, weather extremities induce higher risks for both flood and drought in the Carpathian Basin. Throughout the 19th and 20th centuries, flood control relied on cost-intensive engineering structures, but recently ecological solutions have come to the fore. Flood hazard on major rivers could be mitigated if multiple and cumulative water retention opportunities are exploited on the upper sections of tributary catchments. Appropriate land use and landscape pattern changes can shift the infiltration to run-off ratio to the benefit of the former. In the Transdanubian Hills of Southwest Hungary three study areas with different agricultural land use types had been selected and investigated for the impact of landscape micro-features on soil moisture retention capacity with the purpose of conserving water from wet periods for the times of drought. Marked differences in moisture dynamics have been detected between arable land, grasslands and orchards. This fact underlines the need for integrated soil and water conservation. Drought risk was found to be the highest on ploughland. Favourable soil water budgets have been observed in the fields as a function of land use: less intensive types, like grazing land and orchards (particularly tree rows), were identified as places of high water retention capacity. Although serious water stress conditions were also reached in the orchard, it markedly mitigated drought conditions compared to the ploughland.

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跨多瑙河南部丘陵地区不同农业用地方式下斜坡土壤水分保持

据预测，日益严重的极端天气是气候变化的后果之一。根据气候模型，极端天气在喀尔巴阡盆地引发洪水和干旱的风险更高。在整个19世纪和20世纪，洪水控制依赖于成本密集的工程结构，但最近生态解决方案已经脱颖而出。如果在支流集水区的上游利用多重和累积的蓄水机会，可以减轻主要河流的洪水危害。适当的土地利用和景观格局变化可以使入渗径流比向有利于前者的方向转变。在匈牙利西南部的跨多瑙河丘陵地区，选择了三个不同农业用地类型的研究区，研究了景观微特征对土壤持水能力的影响，目的是在干旱时期保持湿润期的水分。在耕地、草地和果园之间发现了显著的水分动态差异。这一事实强调了综合水土保持的必要性。研究发现，耕地的干旱风险最高。在田地中观察到有利的土壤水分预算是土地利用的一个功能:较不密集的类型，如牧场和果园(特别是树行)被确定为高保水能力的地方。虽然果园也达到了严重的缺水条件，但与耕地相比，它明显缓解了干旱状况。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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来源期刊

Hungarian Geographical Bulletin Social Sciences-Geography, Planning and Development

CiteScore

3.20

自引率

0.00%

发文量

审稿时长

24 weeks