Background

–“It may be safely assumed that forests favorably affect the meteorological conditions,”Anders 1882

–“The best evidence at hand fails to show a decrease in rainfall over the United States in the last 100 years,in spite of the immense areas of forest that have been burned and cut,”Pinchot 1905

–“A new hypothesis suggests that forest cover plays a much greater role in determining rainfall than previously recognized,”Sheil and Murdiyarso 2009.

New thinking on forests and rainfall aims to overturn longstanding scientific paradigms and policies for water conservation.Ellison et al.recently made a“call to action that targets a reversal of paradigms…to one that treats the hydrologic and climate-cooling effects of trees and forests as the first order of priority”(Ellison et al.2017).This statement represents an emergent supply-side school of hydrological thought that sees forests as “biotic pumps”,“generators”or “recyclers”increasing the overall water balance in a region(Makarieva et al.2006;Makarieva and Gorshkov 2007;Sheil and Murdiyarso 2009;Ellison et al.2012;Sheil 2014).

For the past five years,supply-side school scholars have sought a “timely resolution”to end an almost two-century old debate about whether forests are net users or suppliers of water in the hydrological cycle(Ellison et al.2012).This position challenges key tenets of demand-side thinking that have underpinned policies to regulate vegetation cover in catchments to maximize streamflow.Demandside thinking sees water as a finite ecological service that has other competing users.For instance,demand-side policies in South Africa limit afforestation in catchments with constrained water supply to provide water to other downstream users(Kruger and Bennett 2013;Bennett and Kruger2015).Thesepoliciesarebased on long-term experimental and observation research projects that ran for decades and were designed specifically to inform policy on the question of forests and water supply(Bosch and Hewlett1982;Andréassian 2004).Supply-side scholars critique this perspective for focusing narrowly on the catchment scale without properly accounting for regional and global dynamics that influence the generation of precipitation(Ellison et al.2012).

The idea that forests modify regional hydrological cycles and climate has a long intellectual and policy history that has not been discussed by recent scholarship of the supply-side.In many respects,the mechanisms underlying past and present theories about forests and rain are strikingly similar.So too have scientists at different times advocated similar policy recommendations based on the idea that forests influence rainfall and climate.It is necessary to understand how contemporary ideas developed across time and space.A historical perspective can highlight problems that emerged in the past.It also highlights the scientific,policy and public context in which current demand-side policies developed across the twentieth century.This historical viewpoint should be considered if supply-side thinking is implemented into policy and management contexts.

Methods

This study analyzes historical and scientific literature to trace key developments in ideas and policies linking forests to rainfall and climate.In addition to identifying relevant materials in the field of environmental history,the authors used scholarly databases Google Scholar,EBSCOhost and JSTOR for articles relating to forests and rainfall from the 1800s until the present day.

Results

The history of supply-side thought

The belief that humans can induce climate and meteorological changes by altering vegetation has appeared throughout history(Hulme 2017).In ancient Greece,Theophrastus(371–287 BCE)argued that Greece had experienced climatic change due to the draining of marshes and extension of agriculture(Glacken 1976).The link between vegetation and climate emerged elsewhere around the world at different times.It reached its greatest extent and popularity in the 1850s to 1880s when scientists,politicians and members of the public throughout the Western world advocated that forests influenced regional climate and rainfall(Grove 1995;Barton 2002;Davis 2007;2016;Beattie 2011;Cushman 2011).During this age,the destruction of nature from globalization and colonialism created considerable anxieties,akin to our own fears of global warming and tropical deforestation(Beattie 2011).The belief that forests needed to be protected to stabilize climate influenced the rise of the first global environmental movement(Barton 2002)and led to the establishment of protected and productive forest areas worldwide(Bennett 2015).

An unbroken evolution of thinking on forest-rainfall connections can be traced from the late 1400s to the present.The idea that forests strongly influence rainfall emerged in the early modern era(1450–1750)in response to the Scientific Revolution and European exploration and expansion throughout the world(Grove 1995).The Genoese-Spanish explorer Christopher Columbus(1451–1506)reasoned that the intense mid-day rains in the American tropics were induced by the dense tropical forest foliage which had a high moisture content that was recycled.He also argued that deforestation in the tropics led to declining rainfall.Grove argues that Columbus’s ideas reflected a widely-held belief that deforestation in the Canary Islands,Madeira and Azores Islands during European colonization caused a decline in overall rainfall.Naturalists in the 1600s and 1700s argued similarly that deforestation on the islands of St.Helena and Mauritius and in the Caribbean led to similar rainfall declines.Despite emergent lines of thinking,there was no naturalist consensus on the forest coverrainfall debate prior to the first quarter of the nineteenth century.Though many warned that deforestation led to declining rainfall other commentators,such as Georges-Louis Leclerc(1707–1788)and Thomas Jefferson(1743–1826),saw deforestation as making a positive contribution to climate by moderating temperatures.

A more scientific and modern theory of deforestationinduced climate change can be traced back to Alexander von Humboldt(1769–1859),a wealthy Prussian naturalist.As Humboldt travelled extensively through the Americas from 1799 to 1804,he observed a connection between forest cover and rainfall(Cushman 2011).He argued that the declining water level of Lake Valencia,located in modern day Venezuela,occurred when settlers created agricultural plantations out of native forest.Humboldt’s thoughts gained popularity because they fit within an existing line of thinking going back to at least the late 1400s.He had scientific credibility because his detailed observations in Latin America appeared to be proven by later events and were then propagated through an extensive network of patronage.In one prominent example,Humboldt encouraged Jean-Baptiste Boussingault(1801–1887)to revisit Lake Valencia to see whether the lake had risen or fallen.On arrival,Boussingaultfound extensive secondary growth forest caused by a slave uprising during the Revolution that destroyed the plantations.That the water level seemingly rose when the forests grew back confirmed Humboldt’s ideas in the minds of many at the time,although it is now generally recognized that the lake levels had fluctuated due to secular variation in rainfall.

The forest-rainfall connection gained a new international authority in 1864 after George Perkins Marsh(1801–1882),a well-respected American former senator and man of letters,published an authoritative review of literature on the relationship between forests,rainfall and climate.Marsh’s Man and Nature:Or,Physical Geography as Modified by Human Action(Marsh 1864)was the single most influential book in shaping attitudes towards forest and climate during the second half of the nineteenth century.The belief that humans throughout history had changed regional climate due to deforestation was a centerpiece of his book.His biographer Lowenthal notes that the book,“ushered in a revolution in the way people conceived their relations with the earth”(Lowenthal 2000).

干旱气候使植被稀少，多为白刺、柽柳等极耐旱耐盐碱植物，地表裸露，土壤自然形成困难，呈现出质地粗盐碱重的特点，季节性大风则加剧土肥流失。大风过后，低洼地表呈现微型黄沙波浪形状，盖没旱生灌丛；在平坦地带，粗砂卵石树根坦露。土壤风蚀将使土肥流失，作物生产严重肥水不足。

Marsh acknowledged the many unknowns.Definitively measuring a link between forests and climate beyond a highly-localized area(such as under the canopy)proved elusive.Marsh admitted that,“we cannot measure the value of any one of these elements in climatic disturbance,raising or lowering of temperatures,increase or diminution of humidity”.It was unknown whether transpiration fell locally or was carried by wind far away(Marsh 1864).He did not think that forests had an influence on climate at the global scale:“it does not seem probable that the forests sensibly affect the total quantity of precipitation,or the general mean of the atmospheric temperature of the globe”(Marsh 1864).Even with these uncertainties,he still justified forest conservation on a precautionary principle:“When,therefore,man destroyed these natural harmonizers of climatic discords,he sacrificed an important conservative power”(Marsh 1864).

Agrawal A,Nepstad D,Chhatre A(2011)Reducing emissions from deforestation and Forest degradation.Annu Rev Environ Resour 36:373–396

The idea that forests influenced rainfall and climate became the subject of considerable popular discussion in newspapers,popular books and parliaments.Classics experts pointed out that Biblical and ancient examples showed that the Middle East had more forests and rain in the past than present(Barton 2002;Davis 2007,2016).To elites with little scientific literacy,classics provided compelling evidences.Journalism also played an important role in public perception—for example,77%of newspaper articles in Australia from the 1860s to the 1930s that discussed the question of whether forests influence climate saw forests as having an influence on climate and rain(Legg 2014).

The link between forest cover and water yield reached its peak popularity in the 1870s and 1880s before suffering scientific and popular criticism that led to its decline globally in the 1900s and on.These criticisms are discussed in the next section.The forest-rainfall connection continued to remain popular among many former colonial foresters and advocates of forest protection.St.Richard Barbe Baker,the popular forestry author and founder of Men of the Trees,promoted this idea tirelessly from the 1940s to 1980s(Baker 1944,1970).Environmentalcampaigners have sometimes used this argument to argue against the excessive harvesting of timber.In the 1990s,leaders of the Chipko movement in India argued that deforestation led to declines in rainfall(Hamilton 1992).However,the idea held little sway in scientific circles until there was a revival in the 1980s and 1990s.

Scientific and popular criticism of forest cover water yield The idea that forests produced rain received criticism even at its peak popularity.Marsh noted,“Unfortunately,the evidence is conflicting in tendency,and sometimes equivocal in interpretation”(Marsh 1864).The influential American meteorologist,General A.W.Greely(1844–1935),himself a believer in the influence of forests on climate,expressed similar concerns in his influential 1888 book American Weather:“The question of the influence of vegetation and forests upon rain fall is a vexed one,and from its character is not susceptible of positive proof or disproof”(From Legg 2014).

The emergence of climatology and more advanced meteorological studies steadily undermined the idea that vegetation influenced climate.The emergence of the field of climatology with the 1883 publication of Julius von Hann’s(1839–1921)seminal Handbook of Climatology(Handbuch der Klimatologie)led researchers to emphasize the physical and global drivers of climate while downplaying the importance of forests in climate systems(Edwards 2013).Hann questioned the validity of climatic measurements, especially those showing temperature change or increases/decreases in rain,based on methodological grounds.Rainfall shifts could be better explained as secular variations rather than as being caused by changes to forests.This viewpoint influenced mainstream climatologicaland metrological positions for most of the twentieth century.

There was a revival of interest in forest-climate influences starting in the mid-to late 1970s brought on by growing concern about anthropogenic climate change and deforestation,advances in climate modelling and continued interest in desertification and albedo.Rapid developments in climate modelling in the late 1970s to mid-1980s renewed interest in the relationship between forests,rainfall and temperature,especially in the wet tropics.In 1979,the first World Climate Conference emphasized the importance of forests as shapers of climate,but participants noted that there was a lack of data on how forests influenced climate(Edwards 2013).Earlyclimatemodelsraised numerouspossibilities.Models were divided on whether the removal of tropical forests would modify global and regional climate either by increasing surface albedo,potentially cooling the earth,or increasing CO2into the atmosphere,and warming it via greenhouse effect(Henderson-Sellers and Gornitz 1984).

Foresters in the 1890s began to quit justifying policy based on the forest-rainfall connection.Beattie argues that foresters in the United States,Australia,and New Zealand switched their policy focus to the hydrological importance of trees because increasingly discredited forest-rainfall connection threatened their position as policy and public opinion leaders(Beattie 2011).Foresters maintained their control over forestry by shifting towards views that were still widely held by the public and could be experimentally tested.The view that trees and forests played a positive role in the hydrological cycle then dominated forest policy in countries such as the United States,India and South Africa during the early twentieth century.

护理学是以护理学和社会学理论为基础的综合性应用学科，是一门精细的、富有爱心的艺术。要采用班级教学制、专题讲座、小组讨论等方式让学生清楚的认识到护理不仅仅是以解除病人的痛苦为目的的学科，而是以人为中心，包括为病人的身体、心理和社会适应提供全方面的护理。同时可采用临床上优秀、先进护理人员的事例为学生树立现实中的榜样，使其意识到要想从整体上提高护理质量，从本质上改变护理人员社会地位及待遇，需要护理专业的学生从我做起，认真学好专业知识及技术，为护理事业的发展贡献力量。

同样，G9也有很多绝活。它的6K照片模式，让用户可以30fps的速度拍摄1800万像素照片，还可以让用户得到快门按下前的照片，特别适合运动题材和街头拍摄。此外，松下还提供了先拍照后对焦功能，其原理十分简单：相机以最快速度自动完成一次对焦点包围拍摄序列，然后再供用户选择。

The forest-hydrological link came under growing criticism.The first text book written on forests and climate,Forest Influences,noted that foresters had“only a hazy conception of what is meant by forest influences,watershed management,and protection”(Kittredge 1948).French engineers had since the 1840s questioned claims made by foresters about the hydrological and climatological influence of forests(Andréassian 2004).Engineers pointed to contradictory evidence and a lack of experimental or observational results.They argued that foresters lacked proper data to justify protecting forests in catchments to conserve water or to increase supply.It took almost a hundred years before a proper experiment was designed to examine these claims.

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In South Africa,the debate about forests and their influence on water supply and rainfall led the government to establish a hydrological research station on the Eerste River in the Jonkershoek Valley in 1935 near the city of Stellenbosch to measure how planted alien trees influenced streamflow dynamics compared with indigenous Fynbos heathland.(Bennett and Kruger 2013,2015;Kruger and Bennett 2013).Its director Christiaan Wicht(1908–1978)designed a paired catchment experiment.The only earlier paired catchment at Wagon Wheel Gap in Colorado,USA,focused on sub-alpine forests(Saberwal 1998).Findings from this site were not seen to be applicable to tropical,subtropical or extratropical conditions.In 1949,Wicht wrote up his initial findings in the report Forestry and Water Supplies in South Africa(Wicht 1949).Wicht argued the loss of water in the catchment occurred via transpiration from trees.These findings,along with research(some done in collaboration)at Coweta in Georgia,USA,led many foresters and hydrologists to change their views on the hydrological impact of forests(Bosch and Hewlett 1982).The idea that forests are users of finite water within catchments informs forest policy in many arid and temperate regions of the world,especially those that experience intermittent rainfall,severe low seasonal streamflows or water shortages.

党内法规是规范党内行为主体的行为规范体系，健全党内法规体系是推动全面从严治党向纵深发展的根本保障，习近平总书记指出，“各级党组织要把严守纪律、严明规矩放到重要位置来抓，努力在全党营造守纪律、讲规矩的氛围”[7]P156。健全的法规制度体系是保证政党组织健康发展的必备要件，制度建设是全面从严治党的根本抓手和治本之策，要健全和完善党内法规制度体系，培育党内制度文化、优化制度环境，向制度建设要长效。

Hydrological researchers in the 1960s and 1970s concluded that forests did not influence rainfall.H.C.Peirera,then one of the world’s renowned hydrologists,wrote in his 1973 book on water in temperate and climate regions:“There is no corresponding evidence as to any effects of forests on the occurrence of rainfall”(cited from Hamilton 1992).The Amazon and “cloud forests”on mountains that captured oceanic moisture were perhaps the two exceptions to these rules.

Someforest-climateresearch continued into the mid-twentieth century,but it occurred under a more limited form focused on “localpeculiarities” in climate such as on mountains,in valleys and within forest canopy(Geiger 1951).Rudolph Geiger’s(1894–1981)pioneering research in Germany on climates near the ground,which was translated from German into English in 1950,established the field of microclimatology as a significant field of international research.Geiger’s work pointed to distinct microclimates determined by canopy cover,species composition,rain interception and dew formation,among other influences(Geiger 1950).Research on large forests suggested that established canopies and Forest Ecosystems could have a positive influence on the water balance(Biel 1961).The view that mountain forests generate water and rain recurred in popular campaigns and writing.Viviroli et al.(2007)extended this into a metaphor by calling mountains“water towers for humanity”.

Not Applicable.

Concerns about desiccation and desertification gained international attention in the early 1970s because of the devastating famine in the Sahel caused by a half-decade drought from 1968 to 1974.Many experts attributed the famine to human-induced desertification caused by overgrazing,overpopulation and denuded vegetation(Davis 2016).The MIT climate researcher Jule Charney(1917–1981)turned his attention to desertification in the Sahel.His research focused on albedo,the reflectivity of light off surfaces.Albedo is lowest in a forest,which absorbs up to 80%of sunlight,thus warming surface temperatures,and is highest in a desert or snowpack,which reflects upwards of 80%of light,which cools due to the lack of retained solar radiation.Charney argued that the denudation of vegetation by grazing and human activity increased albedo,which led to cooling via a loss of radiative energy;the decline in energy ultimately weakened the Hadley circulation,which brought rain to the Sahel;this process therefore caused a decline in rainfall(Charney 1975;Charney et al.1977).The whole concept of desertification—from its human causes to its ecological and climatological effects—are,like the aformentioned forest-hydrological connection,contested but nonetheless still pervasive in public and policy discussions(Davis 2016).

Revival

The actions of some foresters did little to help the profession sustain the idea that forests influence climate against new thinking in climatology and meteorology.Colonial foresters in North Africa,India,South Africa and Australiaembarked on extensivetree-planting campaigns in the 1860s to 1880s to push back deserts and increase rain(Davis 2007;Beattie 2011;Bennett and Kruger 2015).The idea that trees could improve climate helped to spur European settlement and colonization in regions such as the arid interior of South Australia or the Karoo in South Africa.Attempts to develop agriculture and timber plantations in the interior of South Australia succeeded briefly in the 1860s and 1870s due to a temporary increase in rainfall,but this period came to sudden closure when rainfall returned to the historical norm and plummeted(Meinig 1988).It became apparent that without water most imported tree species would not grow,let alone change the climate.From Algeria to Australia,forestry departments wrote off efforts to improve deserts and arid lands and turned their attention to areas of higher productivity.

Initially researchers theorized that tropical deforestation would lead to regional and global cooling with corresponding declines in rainfall.A key Nature paper in 1975 concluded that increased albedo caused by deforestation would reduce surface temperature,reduce evaporation and rainfall,weaken the Hadley circulation and cool the middle and upper tropical troposphere(Potter et al.1975).Carl Sagan et al.in 1979 argued in Science that albedo caused by deforestation and other humaninfluences,such as fire,caused desertification that had potentially cooled the earth over time.Sagan noted,“during the past several thousand years the earth’s temperatures could have been depressed by about 1 K,dueprimarily to desertification,which might have significantly augmented natural processes in causing the present climate to be about 1 to 2 K cooler than the climatic optimum of several thousand years ago”(Sagan et al.1979).Sagan suggested that to achieve an imagined climatic optimum deforestation in the Amazon“may even be desirable,as a counterbalance to greenhouse heating of the earth”,though they noted,“it would seem prudent,on an issue of possible global importance,to study its implications in some detail before proceeding unilaterally”(Sagan et al.1979).Sagan’s view was promptly challenged(Potter et al.1981).

The idea that deforestation in the Amazon would create a global climate optimum was dropped when evidence and new thinking suggested tropical deforestation could lead to warmer temperatures and less rain.Climate models and the earliest experiments in the 1980s suggested that any cooling caused by increased surface albedo would be counterbalanced by decreased cooling because of lower evaporation rates(Henderson-Sellers and Gornitz 1984;Dickinson and Henderson-Sellers 1988).In the late 1980s,the earliest detailed micrometeorologicalmeasurementsin centralAmazonian rainforests in Brazil produced measurements confirming global models that showed a net increase in temperature due to declining cooling caused by the loss of evaporation(Shuttleworth 1988;Gash and Shuttleworth 1991).This perspective has been confirmed and is recognized widely by researchers working in the field of climate change(Bonan 2008;van der Ent et al.2010).

（1）活性材料筛选。取3号样品加入 AP 2.0%、水泥20.0%、CA5.0%及相应添加剂，不同活性材料投加量相同，考察固化改良后浸出液主要指标，试验结果见表8。通过数据分析可以看出，不同的活性材料其对水泥水化作用不同，活性越高，作用效果越好，固化后各项指标越好，采用混合的活性材料比单一的活性材料效果好，因此选择混合型活性材料HHJ。

Albedo has remained a process of interest to climate researchers,but its overall importance in climate models declined due to advances in measurement of other sources of warming.Albedo came to prominence in the 1970s because of satellite imagery which showed striking changes in landscape caused by humans(Nicolson 2011).The results of research on albedo are somewhat contradictory due to factors such as latitude,snow cover,the overall carbon stocks of forests and forest-induced evaporation.The most up-to-date research suggests that deforestation-induced albedo would have opposing outcomes depending on latitude and landscape.Tropical deforestation is seen to produce a net warming because of increased carbon released from the forests,reduction in evaporative cooling and lowered cloud albedo.The transformation of grasslands to forest might also decrease albedo thus inducing warming(Bond 2016).In the higher Northern latitudes,deforestation is believed to produce cooling due to the increase of albedo with more snow-cover,and would offset the warming effect of carbon emissions(Bonan 2008;Jiao et al.2017).

Growing interest in climate,especially the idea that greenhouse gases could increase global temperature,encouraged researchersin severalfieldsto begin thinking about how deforestation,forest protection and afforestation influenced global climate,especially anthropogenic warming.In 1979,a National Research Council team led by Jule Charney(the same Charney who published keystudieson desertification and albedo)first predicted that a doubling of CO2would likely increase the global temperature from 2°to 3.5 °C,with an error of 1.5 °.Advances in modelling and measurement in the 1980s and 1990s allowed for researchersto understand diverseforestdynamics(e.g.carbon absorption,carbon emissions,ozone emissions,albedo,influence on rain)and to incorporate these processes and data into increasingly sophisticated regional and global climate scenarios.

Scientists began to raise alarms that the loss of trees through tropical deforestation would increase greenhouse gases.Whereas earlier theories of forests and climate tended to deny the global importance of forests on climate(Marsh 1864),advances in global climate modelling encouraged researchers to begin thinking about how forests influenced global climate.Advances in climate and vegetation modelling,prediction and data production and sharing have given greater power to environmental predictions,especially those associated with global warming.When global warming became an“actionable crisis”(Edwards 2013:361),it cracked open the door for the re-entry of the forest-rainfall connection.

Forests once again became the central focus of global policy discussion in the 1990s due to international concerns about CO2emissions.In 1992,the Kyoto Protocol promoted the idea that protecting tropical forests from deforestation could help to slow the release of CO2into the atmosphere and thus lessen predicted climate warming(Hulme 2017).In 2008,three organizations(FAO,UNDP,and UNEP)within the United Nations established the Program on Reducing Emissions from Deforestation and Forest Degradation(REDD)to stop forest loss to decrease carbon emissions from forests and to sequester airborne carbon stocks.A considerable amount of work been done to measure carbon storage of forests.Forests are now estimated to produce approximately 12–20%of yearly carbon emissions because of deforestation and the establishment of agriculture and human infrastructure(Van Der Werf et al.2009,with correction of 12%from an original estimate of 20%)while they absorb upwards of 1/3rd to 1/4th of anthropogenic emissions(Reich 2011;Bellassen and Luyssaert 2014).

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证法2 不妨设a>0,b>0,c<0.如图2，在平面直角坐标系中，确定两个固定点以点A为圆心，线段AB为半径作⊙A，⊙A与x轴相交于点C和点D，与y轴相交于点E.

The emergence of the supply-side school within the past decade reflects advances in regional climate modelling,new ideas in atmospheric physics and more accurate measurement of water molecules through the hydrological cycle.Prominent scholars within the supply-side school posit that forests influence climate and weather at regional and global scales in ways that have not been properly acknowledged by climate policy or modelling.The strongest advocates of supply-side thinking challenge both the carbon-centric priority of forest policy and the demandside perspective of hydrology.Ellison et al.write:“For reasons of sustainability,carbon storage must remain a secondary,though valuable,by-product”(Ellison et al.2017).There is disagreement on how much forests influence hydrological cycles(see van der Ent et al.2012),but still most researchers in the field believe that it is prudent to preserve forests for their climatic stabilizing role.Despite uncertainty,supply-side scholars argue that the climatic influences of forests should underpin global forest policy.This viewpoint is having its influence on policies from the European Union to the Amazon.A 2012 report for the European Union from researchers at the British Met Office argues that forests“play a major role in the atmospheric circulation and the water cycle on land and may have a role in mitigating regional climate,desertification and water security problems”(Sanderson et al.2012).

Discussion

This discussion points to potential downsides to policies based on supply-side thinking while encouraging more research in the area.More research is required to establish a firmer basis for the claims made by supply-side scholars.Even scholars whose work has been used to support supply-side thinking argue that existing work is“simplistic”and “exaggerates the role of the forest in the hydrological cycle”(van der Ent et al.2012).It is simply too early to call for a paradigm change.Forest and water conservation policy throughout much of the world has been guided by decades of careful analysis,experimentation and debate.This careful,long-term research has not yet been done by the supply-side school.

There is a real potential that,if applied too broadly,the supply-side perspective could be used to justify treeplanting in areas with limited water supply.Ellison et al.support tree planting in Spain to increase precipitation(Ellison et al.2012).This view runs contrary to a significant body of hydrological evidence from Spain(not to mention studies from comparable climates elsewhere in the world)that shows strong correlations between increased forest-cover and decreased water-supply(see for instance Buendia et al.2016;Gallart and Llorens 2003).Supply-side thinking has the potential to reinforce calls for widespread tree-planting in Africa.Hydrologists and ecologists are already alarmed at proposals such as the World Resource Institute goal to “restore”100 million hectares in Africa by planting trees because they fear these efforts will cause decreases in streamflow,as they have done in other regions(Jackson et al.2005;Pittock et al.2013;Bond 2016).Supply-side thinkers have mentioned some of these concerns(Ellison et al.2012),but have said little about what regions would need revisions of policy and what regions should keep existing protocols.

Premature calls for supply-side policy creates the risk that the public and policy makers will be led by instinct rather than science.Many have continued to view forests as having positive overall impacts on rainfall and water balance even though there is a significant body of experimental and observational hydrology suggesting to the contrary(Calder 2002).The history of forestry shows that there has been a tendency to over-emphasize the benefits of supply-side policies while downplaying the potential social,economic or environmental issues associated with them(Bennett 2015).Humans are culturally and perhaps even genetically predisposed to environments with trees.Decades of studies suggest that people from diverse backgrounds and cultures prefer green environments with trees,whether in the context of savanna,urban environments or forests(Purcell et al.2001;Van den Berg et al.2007;Carrus et al.2015).This pro-tree bias can tilt public attitudes on climate and biodiversity management towards forest policies that may have negative consequences for other ecosystems and water users.

The longstanding tendency to see trees as climatic and hydrological regulators explains the recurrence of certain forestry narratives.Andréassian argues “the ghost of deforestation seems to appear every time a new catastrophic flood or drought occurs”(Andréassian 2004).A study of desertification by Davis comes to similar conclusions:“academic research has shown for more than 25 years that estimates of desertification have been significantly exaggerated and that most of the world’s dryland are not being invaded by spreading deserts caused by deforestation,burning,and overgrazing as claimed since the word was first coined nearly one hundred years ago”(Davis 2016).

Edwards PN(2013)A vast machine:computer models,climate data,and the politics of global warming.MIT Press,Cambridge

Conclusions

If the supply-side view is correct,an increase in forest cover will allow us to live in a world with more plentiful water where we can better handle predicted climate changes.There is,at the same time,a risk that policy makers,if influenced by this thinking,might downplay the potential negative impacts.Over a century of careful research and experimentation has been implemented to devise evidence-based policy,and it would be a mistake to overturn a century of painstaking research without more solid evidence.If policies are hastily imposed,and a policy framework based on over a century of hydrological research is overturned,there is a distinct possibility that supply-side policies may cause more social,ecological,economic and hydrological problems than they solve.History offers insights into potential pitfalls and explains why demand-side policies remain the dominant paradigm for many regions of the world.Ideas and policies should change,but only when there is robust evidence and greater consensus.

无论是从哪一层面上来了解，显而易见的是苏珊·桑塔格并不是第一个提出形式美学的人，但针对20世纪60年代这个特殊的文艺混乱的时期，苏珊·桑塔格喊出反对就文本进行曲解，培养感悟力的口号，并非不合时宜。“形式美学”的出现之所以能引起强烈的反响，不仅有历史渊源，更有着一定的现实意义。

Abbreviations

FAO:Food and Agricultural Organization;REDD:Reducing Emissions from Deforestation and Forest Degradation;UNESCO:United Nations Educational,Scientific and Cultural Organization

Acknowledgements

The authors would like to thank the three anonymous reviewers for their comments.The authors would like to thank Forest Ecosystems and Beijing Forestry University.

Funding

Availability of data and materials

Not Applicable.

Authors’contributions

BMB is the lead author of the paper.Both authors read and approved the final manuscript.

Ethics approval and consent to participate

The idea thatvegetation influenced rainfalland climate continued to shape environmental policy in Africa and Asia despite international trends in hydrology and forestry downplaying the influence of vegetation on regional rainfall and climate.Fears about desertification and desiccation became pronounced in India and Africa in the 1930s because of concerns raised by droughts during the Depression(Saberwal 1998;Beinart 2003).Colonial officials saw denudation of soil and destruction of vegetation as a key cause of social,ecological and climatic problems.These scientists took their views with them as they took up positions at the end of empire in internationaldevelopmentagencies,such asUnited Nations Educational,Scientific and Cultural Organization(UNESCO),the UN’s Food and Agricultural Organization(FAO),World Bank and other national overseas development programs(Hodge 2010;Barton 2010;Davis 2016).

Consent for publication

Not Applicable.

Competing interests

The authors declare that they have no competing interests.

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