新SAT阅读45篇-可汗学院.pdf

?Line 5 10 15 20 25 30 35 40 1?2?3?4?5?Line 5 10 15 20 25 30 35 40 45 1?2?3?4?5?高娃老师，国内新SA T权威名师。加微信：l o v el y w a w a 137，免费答疑?Line 5 10 15 20 25 30 35 40 1?2?4?5?3?Line 5 10 15 20 25 30 35 40 1?2?4?4?5?3?高娃老师，国内新SA T权威名师，加微信：l o v el y w a w a 137高娃老师，国内新SA T权威名师。加微信：l o v el y w a w a 137，免费答疑高娃老师，新SAT辅导专家?Line 5 10 15 20 25 30 35 40 45 1?2?3?高娃老师，国内新SA T权威名师，加微信：l o v el y w a w a 137高娃老师，国内新SA T权威名师。加微信：l o v el y w a w a 137，免费答疑高娃老师，新SAT辅导专家 4?5?高娃老师，国内新SA T权威名师，加微信：l o v el y w a w a 137高娃老师，国内新SA T权威名师。加微信：l o v el y w a w a 137，免费答疑高娃老师，新SAT辅导专家?Line 5 10 15 20 25 30 35 40 1?2?3?4?高娃老师，国内新SA T权威名师，加微信：l o v el y w a w a 137高娃老师，国内新SA T权威名师。加微信：l o v el y w a w a 137，免费答疑高娃老师，新SAT辅导专家 4?5?高娃老师，国内新SA T权威名师，加微信：l o v el y w a w a 137高娃老师，国内新SA T权威名师。加微信：l o v el y w a w a 137，免费答疑高娃老师，新SAT辅导专家?Line 5 10 15 20 25 30 35 40 1?2?3?4?高娃老师，国内新SA T权威名师，加微信：l o v el y w a w a 137高娃老师，国内新SA T权威名师。加微信：l o v el y w a w a 137，免费答疑高娃老师，新SAT辅导专家 4?5?高娃老师，国内新SA T权威名师，加微信：l o v el y w a w a 137高娃老师，国内新SA T权威名师。加微信：l o v el y w a w a 137，免费答疑高娃老师，新SAT辅导专家?Line 5 10 15 20 25 30 35 40 1?2?3?4?高娃老师，国内新SA T权威名师，加微信：l o v el y w a w a 137高娃老师，国内新SA T权威名师。加微信：l o v el y w a w a 137，免费答疑高娃老师，新SAT辅导专家 4?5?高娃老师，国内新SA T权威名师，加微信：l o v el y w a w a 137高娃老师，国内新SA T权威名师。加微信：l o v el y w a w a 137，免费答疑高娃老师，新SAT辅导专家This passage is excerpted from Joseph Mascaro,Gregory P Asner,Stuart Davies,Alex Dehgan,and Sassan Saatchi,“These Are the Days of Lasers in the Jungle,”2014 by Joseph Mascaro,et al.Just as the Moons history was disrobed by laser ranging 50 years ago,Earths tropical forests are giving up their secrets to the light.Airborne light detection and ranging called LiDARhas over the last ten years become a key tool that ecologists use to understand physical variation in tropical forests across space and time.Like an MRI of the human brain,LiDAR probes the intricate three-dimensional architecture of the forest canopy,unveiling carbon that forests keep out of the atmosphere,and also the mounting threats to that carbon storehouse:drought,fire,clandestine logging and brash gold-mining operations.Even the quintessential natural disturbance of the sun-filled light gap long thought to enhance the incredibly high species diversity of tropical forestshas been deconstructed by laser technology.Laser ranging in tropical forests is such a game-changing technology that science results can scarcely get through peer-review before they are dwarfed by still larger-scale studies.In a decade,laser power on commercial-grade LiDARs has skyrocketed and costs have plummeted.These improvements in LiDAR technology allow airplanes to fly faster,higher and farther,covering more forest area in a single day than every ground-based survey that has ever been collected in the history of tropical ecology.To estimate the amount of carbon stored in a 50-hectare tropical forest monitoring plot on the groundthe largest field plot in the worldtakes a team of 12 people about eight months:a slog of rain and mud and snakes with tape measures and data log books.Todays airborne LiDARs can get you to within about 10%of the same carbon estimate in eight seconds.It is this staggering contrast in scale between LiDAR and fieldwork that led us here:Before this decade is out,we could directly assess the carbon stock of every single square hectare of tropical forest on Earth.We could do it just as well as if we were standing there in the flesh with tape measures in hand.And we could do it for far less than what we have already spent to offset carbon emissions from forests.It is easy in principle,though logistically nightmarish,to measure carbon in tropical forests.A strict constructionist would cut,dry and weigh the biomass of the worlds forests.But this is a self-defeating enterprise.As a result,it is likely that no one has measured carbon over a single hectare of tropical forest,even with the most detailed field surveys.For a century ecologists and foresters have relied on allometric1 estimation in lieu of carbon measurements to translate field surveys of tree diameters,heights and wood densities into whole-forest carbon estimates.Given a volume with known dimensions and density,one would estimate its mass in a similar fashion.As the new kid on the block,LiDAR has been tacked onto the back endinitially thought of as kind of large-scale helper to field surveys.Carbon estimates from the field have been treated as something inherently closer to the real thing than measurements made by LiDARground“Truth”with a capital“T”.This is perhaps understandable historically,but vis-vis actual carbon,there is no such thing as ground truth:both field and LiDAR efforts rely on allometry to convert measurements into carbon estimates.Prior to using these measurements for carbon estimation,they exist as standardized,spatially explicit,archivable and verifiable data the needed substrate for a REDD2-type accounting program.Due to the constancy of the underlying measurements,both field and LiDAR data