2015年7月10日,发表在Science上题为《水文连通性限制全球陆地水通量的分配》(Hydrologic connectivity constrains partitioning of global terrestrial water fluxes)的文章发现了从植物、土壤和地表水中返回到大气的水分比例。
陆地上的水供养着所有的植物、农业、人类和水生生态系统。但是,对于究竟有多少水用于这些系统,科学家们一直未研究清楚。美国犹他大学的水文学家利用降雨、河流和大气样品中水的氢同位素比值和卫星测量分析出除去通过径流形式进入海洋的降水外,陆地降水通过植物、土壤和地表水返回大气的含量。
研究发现,64%的陆地降水(5.5万立方千米)通过植物的蒸腾作用释放到大气中,而其他研究的这一比值远高于此,达到80%以上;6%(5000立方千米)来源于土壤的蒸发;3%(2000立方千米)来源于湖泊、小溪和河流的蒸发;而此前的研究表明,其他的27%(2.3万立方千米)则被植物拦截。另外,研究还发现,仅有38%的降水和融雪在进入地下水、湖泊或者河流之前通过与土壤的相互作用而被植物所利用。
该研究对于理解水质、植物生产率以及气候与生态系统的相互作用具有重要的意义。由于土壤仅与38%的水循环发生作用,因此,我们在预测水质时就必须考虑这一事实。而对植物蒸腾水量的研究则有助于我们进一步理解生态系统和农业的生产力。另外,由于植物叶子释放水分时,也在消耗二氧化碳,而土壤则无法做到。因此,了解植物蒸腾的水量还有助于我们理解植物如何有助于减缓全球变暖。
Where does water go when it doesn't flow?
Study shows how much enters air from plants, soil, surface water?
A serene view of Bear Lake in Utah's Unitas Mountains shows several signs of Earth's water cycle.
Credit and Larger Version
More than a quarter of the rain and snow that falls on continents reaches the oceans as runoff. Where does the rest go?
Now, results of a new study help answer that question: Two-thirds of the remaining water comes from plants, more than a quarter lands on leaves and evaporates, and what's left evaporates from soil and from lakes, rivers and streams.
'The question is, when rain falls on the landscape, where does it go?' asks University of Utah geochemist Gabe Bowen, senior author of a paper on the findings published today in the journal Science.
'Water on the continents sustains all plant life, all agriculture, humans, aquatic ecosystems. But the breakdown--how much is used for those things--has always been unclear.
'Some previous estimates suggested that more water was used by plants than we find [in our study]. It means that plants are less productive globally than we thought, or that plants are more efficient at using water than we assumed.'
University of Utah hydrologist Stephen Good, the study's first author, adds, 'We've broken down the possible pathways water takes as it moves from rainfall and snowfall through soils, plants and rivers. Here we've found the proportion of water that returns to the atmosphere through plants, soils and open water.'
Pathways of Earth's water
The study used hydrogen isotope ratios of water in rain, rivers and the atmosphere from samples and satellite measurements to conclude that of all precipitation over land--excluding river runoff to the oceans--these amounts are released by other means:
·64 percent (55,000 cubic kilometers or 13,200 cubic miles) is released or essentially exhaled by plants, a process called transpiration. This is lower than estimates by other research, which concluded that plant transpiration accounted for more than 80 percent of water that falls on land and does not flow to the seas;
·6 percent (5,000 cubic kilometers or 1,200 cubic miles) evaporates from soils;
·3 percent (2,000 cubic kilometers or 480 cubic miles) evaporates from lakes, streams and rivers; and
·Previous research indicated that the other 27 percent (23,000 cubic kilometers or 5,520 cubic miles) falls on leaves and evaporates, a process called interception.
'It's important to understand the amount of water that goes through each of these pathways,' Good says. 'The most important pathway is the water that passes through plants because it is directly related to the productivity of natural and agricultural plants.'
In another key finding, the researchers showed how much rainwater or snowmelt passing through soils is available for plants to use before it enters groundwater, lakes or streams.
They found that this 'connectivity' is 38 percent: Only 38 percent of water entering groundwater, lakes or rivers interacts with soil and the rest 'moves rapidly into groundwater and lakes and rivers without spending much time in soil,' Bowen says.
'Lot of things happen in soils: nutrients, fertilizers, contaminants, various biological processes. If water that goes to streams and groundwater moves rapidly through soil, it has less interaction with those processes.
'It means the soils and rest of the hydrologic cycle are somewhat separated. If we want to predict future climate change, hydrologic change and water quality, we need to account for the fact that most water doesn't interact with soils before it reaches streams and groundwater.'
Significance: for agriculture, water supplies, climate
-NSF-
来源: http://www.nsf.gov/news/news_summ.jsp?cntn_id=135546&org=NSF&from=news
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