生态环境学报
生態環境學報
생태배경학보
ECOLOGY AND ENVIRONMENT
2014年
4期
710-715
,共6页
魏宗强%颜晓%吴绍华%肖青亮
魏宗彊%顏曉%吳紹華%肖青亮
위종강%안효%오소화%초청량
城市化%城市土壤%土壤封闭%土壤功能
城市化%城市土壤%土壤封閉%土壤功能
성시화%성시토양%토양봉폐%토양공능
urbanization%urban soils%soil sealing%soil function
随着全球城市化的快速发展,城市生态系统研究已受到人们的广泛关注。土壤作为城市生态系统的一个重要组成单位与功能载体,其功能与质量已受到城市化的冲击和影响。由人类活动(如房屋建筑、道路建设等)引起的土壤封闭是城市土壤的一个重要特征。与自然土壤封闭相比,人工封闭土壤严重地阻碍了城市土壤与外界环境的物质能量交换,限制了土壤功能的实现,成为导致土壤质量退化的重要因素。研究人工封闭对城市土壤功能的影响有利于更全面认识城市化的生态环境效应。本文介绍了城市土壤人工封闭的概念、主要特点及其与传统自然土壤封闭的异同;综述了人工封闭对城市土壤水分运动、土壤与环境间气体与能量交换、生物多样性与行为以及粮食安全影响等方面取得的研究进展。目前城市封闭土壤研究仍处于起步阶段,仅在个别城市开展过相关研究,且主要围绕人工封闭对城市环境与土壤的表观影响,对封闭后土壤性质的变化及其机制研究仍很缺乏。未来仍需在更多城市开展系统调查以获取基础数据,需着重研究城市封闭土壤中污染物的赋存、迁移、转化,封闭后土壤碳氮固持能力的变化,以及土壤微生物性质的变化,同时要创新研究方式和研究方法,为加强城市生态系统研究、实现城市可持续发展提供科学依据。
隨著全毬城市化的快速髮展,城市生態繫統研究已受到人們的廣汎關註。土壤作為城市生態繫統的一箇重要組成單位與功能載體,其功能與質量已受到城市化的遲擊和影響。由人類活動(如房屋建築、道路建設等)引起的土壤封閉是城市土壤的一箇重要特徵。與自然土壤封閉相比,人工封閉土壤嚴重地阻礙瞭城市土壤與外界環境的物質能量交換,限製瞭土壤功能的實現,成為導緻土壤質量退化的重要因素。研究人工封閉對城市土壤功能的影響有利于更全麵認識城市化的生態環境效應。本文介紹瞭城市土壤人工封閉的概唸、主要特點及其與傳統自然土壤封閉的異同;綜述瞭人工封閉對城市土壤水分運動、土壤與環境間氣體與能量交換、生物多樣性與行為以及糧食安全影響等方麵取得的研究進展。目前城市封閉土壤研究仍處于起步階段,僅在箇彆城市開展過相關研究,且主要圍繞人工封閉對城市環境與土壤的錶觀影響,對封閉後土壤性質的變化及其機製研究仍很缺乏。未來仍需在更多城市開展繫統調查以穫取基礎數據,需著重研究城市封閉土壤中汙染物的賦存、遷移、轉化,封閉後土壤碳氮固持能力的變化,以及土壤微生物性質的變化,同時要創新研究方式和研究方法,為加彊城市生態繫統研究、實現城市可持續髮展提供科學依據。
수착전구성시화적쾌속발전,성시생태계통연구이수도인문적엄범관주。토양작위성시생태계통적일개중요조성단위여공능재체,기공능여질량이수도성시화적충격화영향。유인류활동(여방옥건축、도로건설등)인기적토양봉폐시성시토양적일개중요특정。여자연토양봉폐상비,인공봉폐토양엄중지조애료성시토양여외계배경적물질능량교환,한제료토양공능적실현,성위도치토양질량퇴화적중요인소。연구인공봉폐대성시토양공능적영향유리우경전면인식성시화적생태배경효응。본문개소료성시토양인공봉폐적개념、주요특점급기여전통자연토양봉폐적이동;종술료인공봉폐대성시토양수분운동、토양여배경간기체여능량교환、생물다양성여행위이급양식안전영향등방면취득적연구진전。목전성시봉폐토양연구잉처우기보계단,부재개별성시개전과상관연구,차주요위요인공봉폐대성시배경여토양적표관영향,대봉폐후토양성질적변화급기궤제연구잉흔결핍。미래잉수재경다성시개전계통조사이획취기출수거,수착중연구성시봉폐토양중오염물적부존、천이、전화,봉폐후토양탄담고지능력적변화,이급토양미생물성질적변화,동시요창신연구방식화연구방법,위가강성시생태계통연구、실현성시가지속발전제공과학의거。
There has been increasing interest in the study of urban ecosystem, with rapid urbanization around the world. As an important component of the urban ecosystem, urban soils are also severely impacted by urbanization, which are interpreted by the changes in soil function and quality. Usually, large areas of urban soils are covered by housing, roads, or other construction work, which heavily perturbs soil’s function. That is artificial soil sealing resulting from anthropogenic activities, and is different from the soil sealing in farmland and forest, or those in other natural soils. Generally, the soils under impervious surfaces in urban areas are impacted more severely by anthropogenic activities than uncovered soils, implicating significant alternations of soil function and quality occurring in the urban sealing soils. Unfortunately, the soil characteristics and function beneath impervious surfaces is not well established, giving difficulties for understanding the net influence of urbanization on soils. Given that greater damaging impact on soil function is exerted by the artificial soil sealing versus natural soil sealing, study on the urban soil sealing is critical to advance our understanding of urban ecosystem. Here, we review recent research on the impact of artificial soil sealing in urban areas on soil functions, including water movement, gas and energy exchange, as well as biodiversity and activity. Overall, the artificial soil sealing in urban areas has negative impacts on soil function and the urban environment, mainly due to that the impervious surfaces can hamper the exchange of material and energy between soil and other environmental compartments. To date, there is not adequate research focusing on the characteristics of the soil beneath impervious surfaces mainly due to inaccessibility. More studies in relation to urban impervious-covered soils, therefore, need to be developed in various cities around the world to obtain a comprehensive knowledge of the influence of urbanization on the ecosystem. Four priority areas for future research are proposed: (1) investigating the changes in forms and accumulation of some pollutants (e.g., heavy metals and polycyclic aromatic hydrocarbons) after soil sealing; (2) focusing on carbon and nitrogen transformation in the artificial sealing soil; (3) promoting the study of micro-biodiversity of the soils underneath impervious surfaces; and (4) developing new research methods for urban impervious-covered soils.