首页
登录
职称英语
Scientists Weigh Options for Rebuilding New Orleans As exper
Scientists Weigh Options for Rebuilding New Orleans As exper
游客
2024-03-03
0
管理
问题
Scientists Weigh Options for Rebuilding New Orleans
As experts ponder how best to rebuild the devastated(毁坏)city, one question is whether to wall off--or work--with--the water.
Even before the death toll from Hurricane Katrina is tallied, scientists arc cautiously beginning to discuss the future of New Orleans. Few seem to doubt that this vital heart of U.S. commerce and culture will be restored, but exactly how to rebuild the city and its defenses to avoid a repeat catastrophe is an open question. Plans for improving its levees and restoring the barrier of wetlands around New Orleans have been on the table since 1998, but federal dollars needed to implement them never arrived. After the tragedy, that’s bound to change, says John Day, an ecologist at Louisiana State University (LSU) in Baton Rouge. And if there is an upside to the disaster, he says, it’s that "now we’ve got a clean slate to start from."
Many are looking for guidance to the Netherlands, a country that, just like bowl-shaped New Orleans, sits mostly below sea level, keeping the water at bay with a construction of amazing scale and complexity. Others, pointing to Venice’s longstanding adaptations, say it’s best to let water flow through the city, depositing sediment to offset geologic subsidence--a model that would require a radical rethinking of architecture. Another idea is to let nature help by restoring the wetland buffers between sea and city.
But before the options can be weighed, several unknowns will have to be addressed. One is precisely how the current defenses failed. To answer that, LSU coastal scientists Paul Kemp and Hassan Mashriqui are picking their way through the destroyed city and surrounding region, reconstructing the size of water surges by measuring telltale marks left on the sides of buildings and highway structures. They are feeding these data into a simulation of the wind and water around New Orleans during its ordeal.
"We can’t say for sure until this job is done," says Day, "but the emerging picture is exactly what we’ve predicted for years." Namely, several canals--including the MRGO, which was built to speed shipping in the 1960s--have the combined effect of funneling surges from the Gulf of Mexico right to the city’s eastern levees and the lake system to the north. Those surges are to blame for the flooding. "One of the first things we’ll see done is the complete backfilling of the MRGO canal," predicts Day, "which could take a couple of years."
The levees, which have been provisionally repaired, will be shored up further in the months to come, although their long-term fate is unclear. Better levees would probably have prevented most of the flooding in the city center. To provide further protection, a mobile clam system, much like a storm Surge barrier in the Netherlands, could be used to close off the mouth of Lake Pontchartrain. But most experts agree that these are short-term fixes.
The basic problem for New Orleans and the Louisiana coastline is that the entire Mississippi River delta is subsiding and eroding, plunging the city deeper below sea level and removing a thick cushion of wetlands that once buffered the coastline from wind and waves. Part of the subsidence is geologic and unavoidable, but the rest stems from the levees that have hemmed in the Mississippi all the way to its mouth for nearly a century to prevent floods and facilitate shipping. As a result, river sediment is no longer spread across the delta but dumped into the Gulf of Mexico. Without a constant stream of fresh sediment, the barrier islands and marshes are disappearing rapidly, with a quarter, roughly the size of Rhode Island, already gone.
After years of political wrangling, a broad group pulled together by the Louisiana government in 1998 proposed a massive $14 billion plan to save the Louisiana coasts, called Coast 2050 (now modified into a plan called the Louisiana Coastal Area project). Wetland restoration was a key component. "It’s one of the best and cheapest hurricane defenses," says Day, who chaired its scientific advisory committee.
Although the plan was never given more than token funding, a team led by Day has been conducting a pilot study since 2000, diverting part of the Mississippi into the wetlands downstream of the city. "The results are as good as we could have hoped," he says, with land levels rising at about 1 centimeter per year--enough to offset rising sea levels, says Day.
Even if the wetlands were restored and new levees were built, the combination of geologic subsidence and rising sea levels will likely sink New Orleans another meter by 2100. The problem might be solved by another ambitious plan, says Roel Boumans, a coastal scientist at the University of Vermont in Burlington who did his Ph.D. at LSU: shoring up the lowest land with a slurry of sediment piped in from the river. The majority of the buildings in the flooded areas will have to be razed anyway, he says, "so why not take this opportunity to fix the root of the problem?" The river could deposit enough sediment to raise the bottom of the New Orleans bowl to sea level "in 50 to 60 years," he estimates. In the meantime, people could live in these areas Venice-style, with buildings built on stilts. Boumans even takes it a step further: "You would have to raise everything about 30 centimeters once every 30 years, so why not make the job easier by making houses that can float."
Whether that is technically or politically feasible--Day, for one, calls it "not likely"--remains to be seen, especially because until now, the poorest residents lived in the lowest parts of the city. Any decision on how best to protect the city in the future will be tied to how many people will live there, and where. "There may be a large contingent of residents and businesses who choose not to return," says Bill Good, an environmental scientist at LSU and manager of the Louisiana Geological Survey’s Coastal Processes section. It is also not yet clear how decisions about the reconstruction will be made, says Good, "Since there is no precedent of comparable magnitude." Every level of government is sure to be involved, and "the process is likely to be ad hoc."
Even with the inevitable mingling of science and politics, we still have "a unique chance to back out of some bad decisions," says Good, who grew up in New Orleans. "I hope that we don’t let this once-in-history opportunity slip through our fingers in the rush to rebuild the city." [br] The plan of Coast 2050 will get billions of federal funding.
选项
A、Y
B、N
C、NG
答案
C
解析
根据题干中的信息词Coast 2050定位原文,只有第八段提到Coast 2050,但该计划是否会获得联邦基金,文中并未提及
转载请注明原文地址:https://tihaiku.com/zcyy/3500895.html
相关试题推荐
[originaltext]Nooneknowsexactlywhywesleep.Butscientistshavelearne
Thebiggestoilspillhappenedin1989.[br]Scientistsarestudyinganddevelop
Scientiststhinkthemoralists’warningis______.[br]Shouldhumanbecloned?
Scientiststhinkthemoralists’warningis______.[br]Whatthegovernmentcan
Scientiststhinkthemoralists’warningis______.[br]Thephrase"becaughtwi
【B1】[br]【B8】[originaltext]RecentlyagroupofSwedishresearchscientists
【B1】[br]【B6】[originaltext]RecentlyagroupofSwedishresearchscientists
【B1】[br]【B3】[originaltext]RecentlyagroupofSwedishresearchscientists
RecentlyagroupofSwedishresearchscientistscarriedouta【B1】______of
[originaltext]Scientistsaregearingupforoneofthemostambitiousinter
随机试题
[img]2018m9s/ct_etoefz_etoeflistz_201808_0050[/img][br]Whatdoestheprofessor
下列()活动不适用于我国《房屋建筑和市政基础设施工程施工招标投标管理办法》。A.
骨关节结核治愈的标准有哪些?
人口数量和质量的变化,对地区和国家未来发展有很大影响。据此回答题。 上海
可激活经典途径的复合物分子是()A.IgG与抗原的复合物B.一个IgG与抗原的
下列事项中,属于资产负债表日后非调整事项的有:A.资本公积转增资本 B.发生
房地产细分市场供求分析的基本步骤中,预测需求是以( )分析为基础的,也就是从分
我国幅员辽阔,经、纬跨度都比较大,这造成了( )。A.南甜北咸,东酸西辣 B
根据《工业锅炉产品型号编制方法》(JB/T1626-2002)中有关燃料品种分类
无胎动、无宫缩影响时,10分钟以上的胎心率平均值是A.胎心率一过性变化B.胎心率
最新回复
(
0
)