在帝国草坪上呼唤时间和减少温室气体排放的必要性

IF 4.6 Q2 ENVIRONMENTAL SCIENCES Global Sustainability Pub Date : 2023-01-06 DOI:10.1017/sus.2023.1
L. Gillman, B. Bollard, S. Leuzinger
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引用次数: 3

摘要

非技术性摘要草坪作为绿地,通常被认为可以从大气中捕获碳。然而,一旦考虑到割草、施肥和灌溉,我们就会发现它们会成为碳源,至少从长远来看是这样。将未使用的城市和农村草坪和草地改造成树木景观,可以为减少温室气体排放和增加大气中的碳吸收做出重大贡献。然而,为了实现这一目标,理事机构必须制定适当的政策和激励措施。技术摘要割草或草坪是人类主导的景观中普遍存在的植被形式,通常被认为通过封存土壤碳来提供生态系统服务。然而,如果将草坪维护包括在内,我们就会发现草坪会成为净碳排放者。我们估计,在全球范围内,如果城市中三分之一的割草恢复到树景中,那么可以从大气中吸收3.1-16.3亿吨碳,在20年的时间跨度内,每公顷排放量可以避免高达43吨的碳当量。因此,我们建议地方和中央政府出台政策,鼓励和/或规范将未充分利用的草地转化为树木景观。社交媒体摘要如果在未使用的草坪上种树,20年内可以从大气中去除10亿吨碳。
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Calling time on the imperial lawn and the imperative for greenhouse gas mitigation
Non-technical summary As green spaces, lawns are often thought to capture carbon from the atmosphere. However, once mowing, fertlising and irrigation are taken into account, we show that they become carbon sources, at least in the long run. Converting unused urban and rural lawn and grassland to treescapes can make a substantial contribution to reducing greenhouse gas emissions and increasing carbon absorption from the atmosphere. However, it is imperative for governing bodies to put in place appropriate policies and incentives in order to achieve this. Technical summary Mown grass or lawn is a ubiquitous form of vegetation in human-dominated landscapes and it is often claimed to perform an ecosystem service by sequestering soil carbon. If lawn maintenance is included, however, we show that lawns become net carbon emitters. We estimate that globally, if one-third of mown grass in cities was returned to treescapes, 310–1630 million tonnes of carbon could be absorbed from the atmosphere, and up to 43 tonnes of carbon equivalent per hectare of emissions could be avoided over a two-decade time span. We therefore propose that local and central governments introduce policies to incentivise and/or regulate the conversion of underutilised grass into treescapes. Social media summary If unused lawns were planted with trees, a gigaton of carbon could be removed from the atmosphere over two decades.
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来源期刊
Global Sustainability
Global Sustainability Environmental Science-Management, Monitoring, Policy and Law
CiteScore
10.90
自引率
3.60%
发文量
19
审稿时长
17 weeks
期刊最新文献
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