1990–2018年匈牙利基于人为对土壤影响的景观变化趋势和热点

IF 1.4 Q2 GEOGRAPHY
Szabolcs Balogh, T. Novák
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引用次数: 2

摘要

在世界范围内,由于人类活动而引起的景观变化正在增加。这些变化还表现在成土过程的变化上。根据土地覆盖变化对土壤的人为特征的影响来评估土地覆盖变化,可以区分土地覆盖变化导致的人类影响增加和减少。在我们的研究中,我们评估了匈牙利景观中HI的变化及其空间分布。利用1990 - 2018年4个时期的LC数据,根据相关的人为土壤特征重新分类,评估了这些变化。为了识别变化的热点,我们采用1×1网格,对变化的方向(增加、中性或减少HI)和频率(LC变化的景观斑块数)进行评价。在我们的研究中,在研究的四个时期确定了热点。我们指出,热点的空间分布差异很大。1990 - 2018年,人类活动影响增加的热点地区有2449个细胞(643.0 km2),主要集中在Pest平原(67个)、Csepel平原(64个)和Nagykálló-Nyírség(60个)。大多数的多个热点都在布达佩斯的郊区到Kiskunlacháza, Bugyi, Délegyháza。当我们检查减少的热点数据时,我们发现1990年至2018年间有1,679个单元(1,524.9平方公里)。它们最多出现在Kiskunság沙脊(38)、Majsa-Szabadka沙脊(37)和Nagykállói-Nyírség(36)。多个热点位于Izsák、Ásotthalom、Vatta和Nyírmihályi定居点。具有众多热点的地区需要特殊管理,以缓和其对土壤的负面影响,同时考虑到日益增加的人类活动,以及土地利用的扩大及其后果。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Trends and hotspots in landscape transformation based on anthropogenic impacts on soil in Hungary, 1990–2018
The transformation of the landscapes due to the anthropogenic activities is increasing worldwide. These changes are also manifested in the change of soil-forming processes. The land cover (LC) changes evaluated according to their influence on anthropogenic features of soils allows to distinguish between LC changes resulting increased and decreased human impact (HI). In our study, we assess the changes of HI on landscapes and its spatial distribution across Hungary. The changes were evaluated by using LC data of four periods between 1990 and 2018 reclassified based on the related anthropogenic soil features. To identify the hotspots of the changes 1×1 grids were applied in which the direction (increasing, neutral or decreasing HI) and frequency (number of landscape patches with LC changes) of changes were evaluated. In our research, the hotspots were identified over the studied four periods. We point out that the spatial distribution of hotspots is very different. The hotspots of the increased human impact are 2,449 cells (643.0 km2 ) between 1990 and 2018, and the most of it localized in the Pest Plain (67), Csepel Plain (64) and Nagykálló-Nyírség (60). Most of the multiple hotspots are in the outskirts of Budapest to Kiskunlacháza, Bugyi, Délegyháza. As we examine the decreasing hotspot data we found 1,679 cells (1,524.9 km2 ) between 1990 and 2018. In largest number, they occur on the Kiskunság Sand Ridge (38), Majsa–Szabadka Sand Ridge (37) and Nagykállói-Nyírség (36). Multiple hotspots are located in settlements Izsák, Ásotthalom, Vatta and Nyírmihályi. Regions with numerous hotspots require special management to moderate its negative consequences on soils to consider both increased anthropisation, but also extensification of land use and their consequences.
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来源期刊
Hungarian Geographical Bulletin
Hungarian Geographical Bulletin Social Sciences-Geography, Planning and Development
CiteScore
3.20
自引率
0.00%
发文量
24
审稿时长
24 weeks
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