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科學(xué)家發(fā)現(xiàn)美國(guó)的垃圾填埋場(chǎng)是“垃圾千層面”

SUNNY NAGPAUL
2024-07-07

一項(xiàng)新研究顯示,垃圾填埋場(chǎng)排放的甲烷是之前認(rèn)為的三倍。這種溫室氣體的變暖效應(yīng)比二氧化碳強(qiáng)得多。

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圖片來源:YUNAIDI JOEPOET—GETTY IMAGES

美國(guó)垃圾填埋場(chǎng)及其對(duì)環(huán)境造成的破壞規(guī)模龐大。目前大約有1200個(gè)垃圾填埋場(chǎng)在運(yùn)營(yíng),平均每個(gè)填埋場(chǎng)占地約600英畝(約合2428112平方米),相當(dāng)于480個(gè)足球場(chǎng)。

垃圾填埋場(chǎng)也是廢物的溫床,從腐爛的蔬菜殘?jiān)⑷夤穷^到破舊的家用電器,這些垃圾會(huì)產(chǎn)生大量的甲烷。這種溫室氣體在20年的時(shí)間里對(duì)全球氣候的變暖效應(yīng)是二氧化碳的80倍。

發(fā)表在《科學(xué)》(Science)雜志上的一項(xiàng)新研究發(fā)現(xiàn),垃圾填埋場(chǎng)的甲烷排放量是之前向聯(lián)邦監(jiān)管機(jī)構(gòu)報(bào)告的排放量的三倍。再加上甲烷的高效力,這項(xiàng)研究的發(fā)現(xiàn)提供了新證據(jù)(證據(jù)量在不斷增加),表明全球各地的垃圾填埋場(chǎng)是如何嚴(yán)重加劇全球變暖的,并強(qiáng)調(diào)了改革垃圾填埋場(chǎng)基礎(chǔ)設(shè)施和美國(guó)人處理垃圾方式的必要性。

這項(xiàng)研究使用了一種新技術(shù)——成像光譜儀,該儀器通過測(cè)量電磁輻射來探測(cè)和測(cè)量地球大氣的變化過程,收集了該國(guó)20%的大型垃圾填埋場(chǎng)的甲烷排放數(shù)據(jù)。在這項(xiàng)技術(shù)問世之前,對(duì)甲烷排放量的估算主要基于計(jì)算機(jī)模型,而根據(jù)這項(xiàng)研究,考慮到每個(gè)垃圾填埋場(chǎng)的獨(dú)特情況及其運(yùn)營(yíng)監(jiān)督,這種模型并不理想。先前報(bào)告的甲烷排放量估計(jì)值可能低于實(shí)際值,原因是人工測(cè)量垃圾填埋場(chǎng)的排放量是極其危險(xiǎn)的,需要工人帶著手持傳感器在垃圾場(chǎng)周圍走動(dòng)。

垃圾填埋場(chǎng)通常堆放著一層又一層的垃圾,從腐爛的食物殘?jiān)退芰系郊矣秒娖骱图垙?,這些垃圾一堆就是幾十年。當(dāng)食物垃圾最終被埋在這些垃圾層中時(shí),它們會(huì)在沒有太多氧氣的情況下分解,從而釋放出甲烷。

該研究的主要作者、亞利桑那大學(xué)(University of Arizona)的氣候科學(xué)家丹尼爾·科斯沃思(Daniel Cusworth)說,“有時(shí),垃圾填埋場(chǎng)下的垃圾一埋就是幾十年?!闭缢诮邮堋都~約時(shí)報(bào)》采訪時(shí)所說,“我們稱之為垃圾千層面。”

在最常見的大氣溫室氣體中,甲烷并不是含量最大的,也不是在大氣中持續(xù)時(shí)間最長(zhǎng)的,但其強(qiáng)大的變暖效應(yīng)是最常見的溫室氣體二氧化碳的80倍。這意味著它會(huì)顯著加劇全球變暖,進(jìn)而引發(fā)與氣候變化相關(guān)的事件,如強(qiáng)烈風(fēng)暴、海平面上升、熱浪和干旱,而這些只是可能發(fā)生的災(zāi)難的一部分。

在這項(xiàng)新研究中,科學(xué)家們利用飛機(jī)低空飛行和成像光譜儀收集數(shù)據(jù),測(cè)量空氣中甲烷的濃度或羽流。2018年至2022年期間,飛機(jī)飛越了18個(gè)州和250多個(gè)垃圾填埋場(chǎng)。在調(diào)查的一半以上的垃圾填埋場(chǎng)中,研究人員發(fā)現(xiàn)了甲烷熱點(diǎn),這表明填埋場(chǎng)出現(xiàn)了問題,比如長(zhǎng)期埋藏的垃圾中有大量甲烷泄漏。

許多垃圾填埋場(chǎng)都有用來收集甲烷泄漏的井和管道,這些氣體有時(shí)會(huì)被收集起來燃燒發(fā)電或供熱。有了這項(xiàng)研究中使用的新技術(shù),垃圾填埋場(chǎng)運(yùn)營(yíng)商和聯(lián)邦監(jiān)管機(jī)構(gòu)將更容易找到甲烷泄漏點(diǎn)并將其燃燒。

美國(guó)國(guó)家環(huán)境保護(hù)局(The Environmental Protection Agency)認(rèn)為,垃圾填埋場(chǎng)是美國(guó)第三大人為甲烷污染源,到2022年,其排放量約占總排放量的14%,相當(dāng)于2400萬(wàn)輛汽車的年排放量。根據(jù)海洋和大氣研究組織(Oceanic and Atmospheric Research,研究影響地球的系統(tǒng)的組織)的數(shù)據(jù),目前大氣中的甲烷的含量(以十億分之一為單位)比工業(yè)化前的水平高出160%以上。

高水平的甲烷會(huì)導(dǎo)致與氣候有關(guān)的災(zāi)難,同時(shí)也會(huì)給生活在垃圾填埋場(chǎng)附近的野生動(dòng)物和家庭帶來健康風(fēng)險(xiǎn),包括氣味、煙塵、煙霧和水源污染。更糟糕的是,那些生活在低收入地區(qū)的人最有可能承受這些風(fēng)險(xiǎn),而且他們沒有足夠的財(cái)力反對(duì)垃圾填埋設(shè)施的建設(shè)。

誠(chéng)然,垃圾填埋場(chǎng)改革是當(dāng)務(wù)之急,但改變?nèi)藗兲幚韽N余垃圾的方式也能有效減少垃圾填埋場(chǎng)的甲烷排放。例如,經(jīng)過堆肥處理的廚余垃圾會(huì)進(jìn)行好氧或有氧分解,由于氧氣的存在,這一過程不會(huì)釋放甲烷。

垃圾填埋場(chǎng)、農(nóng)業(yè)、石油和天然氣生產(chǎn)等行業(yè)是甲烷排放量最大的行業(yè),近年來一直受到科學(xué)家和環(huán)保人士的密切關(guān)注?;剂涎芯亢统珜?dǎo)組織國(guó)際石油變革組織(Oil Change International)最近研究了美國(guó)和歐洲八大國(guó)際石油和天然氣生產(chǎn)商的氣候計(jì)劃和承諾,發(fā)現(xiàn)這些計(jì)劃都與將全球升溫控制在比工業(yè)化前水平高1.5攝氏度的范圍內(nèi)的目標(biāo)不一致??茖W(xué)家警告說,一旦突破這一門檻,將會(huì)產(chǎn)生災(zāi)難性的后果。(財(cái)富中文網(wǎng))

譯者:中慧言-王芳

美國(guó)垃圾填埋場(chǎng)及其對(duì)環(huán)境造成的破壞規(guī)模龐大。目前大約有1200個(gè)垃圾填埋場(chǎng)在運(yùn)營(yíng),平均每個(gè)填埋場(chǎng)占地約600英畝(約合2428112平方米),相當(dāng)于480個(gè)足球場(chǎng)。

垃圾填埋場(chǎng)也是廢物的溫床,從腐爛的蔬菜殘?jiān)?、肉骨頭到破舊的家用電器,這些垃圾會(huì)產(chǎn)生大量的甲烷。這種溫室氣體在20年的時(shí)間里對(duì)全球氣候的變暖效應(yīng)是二氧化碳的80倍。

發(fā)表在《科學(xué)》(Science)雜志上的一項(xiàng)新研究發(fā)現(xiàn),垃圾填埋場(chǎng)的甲烷排放量是之前向聯(lián)邦監(jiān)管機(jī)構(gòu)報(bào)告的排放量的三倍。再加上甲烷的高效力,這項(xiàng)研究的發(fā)現(xiàn)提供了新證據(jù)(證據(jù)量在不斷增加),表明全球各地的垃圾填埋場(chǎng)是如何嚴(yán)重加劇全球變暖的,并強(qiáng)調(diào)了改革垃圾填埋場(chǎng)基礎(chǔ)設(shè)施和美國(guó)人處理垃圾方式的必要性。

這項(xiàng)研究使用了一種新技術(shù)——成像光譜儀,該儀器通過測(cè)量電磁輻射來探測(cè)和測(cè)量地球大氣的變化過程,收集了該國(guó)20%的大型垃圾填埋場(chǎng)的甲烷排放數(shù)據(jù)。在這項(xiàng)技術(shù)問世之前,對(duì)甲烷排放量的估算主要基于計(jì)算機(jī)模型,而根據(jù)這項(xiàng)研究,考慮到每個(gè)垃圾填埋場(chǎng)的獨(dú)特情況及其運(yùn)營(yíng)監(jiān)督,這種模型并不理想。先前報(bào)告的甲烷排放量估計(jì)值可能低于實(shí)際值,原因是人工測(cè)量垃圾填埋場(chǎng)的排放量是極其危險(xiǎn)的,需要工人帶著手持傳感器在垃圾場(chǎng)周圍走動(dòng)。

垃圾填埋場(chǎng)通常堆放著一層又一層的垃圾,從腐爛的食物殘?jiān)退芰系郊矣秒娖骱图垙?,這些垃圾一堆就是幾十年。當(dāng)食物垃圾最終被埋在這些垃圾層中時(shí),它們會(huì)在沒有太多氧氣的情況下分解,從而釋放出甲烷。

該研究的主要作者、亞利桑那大學(xué)(University of Arizona)的氣候科學(xué)家丹尼爾·科斯沃思(Daniel Cusworth)說,“有時(shí),垃圾填埋場(chǎng)下的垃圾一埋就是幾十年?!闭缢诮邮堋都~約時(shí)報(bào)》采訪時(shí)所說,“我們稱之為垃圾千層面?!?/p>

在最常見的大氣溫室氣體中,甲烷并不是含量最大的,也不是在大氣中持續(xù)時(shí)間最長(zhǎng)的,但其強(qiáng)大的變暖效應(yīng)是最常見的溫室氣體二氧化碳的80倍。這意味著它會(huì)顯著加劇全球變暖,進(jìn)而引發(fā)與氣候變化相關(guān)的事件,如強(qiáng)烈風(fēng)暴、海平面上升、熱浪和干旱,而這些只是可能發(fā)生的災(zāi)難的一部分。

在這項(xiàng)新研究中,科學(xué)家們利用飛機(jī)低空飛行和成像光譜儀收集數(shù)據(jù),測(cè)量空氣中甲烷的濃度或羽流。2018年至2022年期間,飛機(jī)飛越了18個(gè)州和250多個(gè)垃圾填埋場(chǎng)。在調(diào)查的一半以上的垃圾填埋場(chǎng)中,研究人員發(fā)現(xiàn)了甲烷熱點(diǎn),這表明填埋場(chǎng)出現(xiàn)了問題,比如長(zhǎng)期埋藏的垃圾中有大量甲烷泄漏。

許多垃圾填埋場(chǎng)都有用來收集甲烷泄漏的井和管道,這些氣體有時(shí)會(huì)被收集起來燃燒發(fā)電或供熱。有了這項(xiàng)研究中使用的新技術(shù),垃圾填埋場(chǎng)運(yùn)營(yíng)商和聯(lián)邦監(jiān)管機(jī)構(gòu)將更容易找到甲烷泄漏點(diǎn)并將其燃燒。

美國(guó)國(guó)家環(huán)境保護(hù)局(The Environmental Protection Agency)認(rèn)為,垃圾填埋場(chǎng)是美國(guó)第三大人為甲烷污染源,到2022年,其排放量約占總排放量的14%,相當(dāng)于2400萬(wàn)輛汽車的年排放量。根據(jù)海洋和大氣研究組織(Oceanic and Atmospheric Research,研究影響地球的系統(tǒng)的組織)的數(shù)據(jù),目前大氣中的甲烷的含量(以十億分之一為單位)比工業(yè)化前的水平高出160%以上。

高水平的甲烷會(huì)導(dǎo)致與氣候有關(guān)的災(zāi)難,同時(shí)也會(huì)給生活在垃圾填埋場(chǎng)附近的野生動(dòng)物和家庭帶來健康風(fēng)險(xiǎn),包括氣味、煙塵、煙霧和水源污染。更糟糕的是,那些生活在低收入地區(qū)的人最有可能承受這些風(fēng)險(xiǎn),而且他們沒有足夠的財(cái)力反對(duì)垃圾填埋設(shè)施的建設(shè)。

誠(chéng)然,垃圾填埋場(chǎng)改革是當(dāng)務(wù)之急,但改變?nèi)藗兲幚韽N余垃圾的方式也能有效減少垃圾填埋場(chǎng)的甲烷排放。例如,經(jīng)過堆肥處理的廚余垃圾會(huì)進(jìn)行好氧或有氧分解,由于氧氣的存在,這一過程不會(huì)釋放甲烷。

垃圾填埋場(chǎng)、農(nóng)業(yè)、石油和天然氣生產(chǎn)等行業(yè)是甲烷排放量最大的行業(yè),近年來一直受到科學(xué)家和環(huán)保人士的密切關(guān)注。化石燃料研究和倡導(dǎo)組織國(guó)際石油變革組織(Oil Change International)最近研究了美國(guó)和歐洲八大國(guó)際石油和天然氣生產(chǎn)商的氣候計(jì)劃和承諾,發(fā)現(xiàn)這些計(jì)劃都與將全球升溫控制在比工業(yè)化前水平高1.5攝氏度的范圍內(nèi)的目標(biāo)不一致??茖W(xué)家警告說,一旦突破這一門檻,將會(huì)產(chǎn)生災(zāi)難性的后果。(財(cái)富中文網(wǎng))

譯者:中慧言-王芳

YUNAIDI JOEPOET—GETTY IMAGES

America’s landfills—and the environmental havoc they create—are sizable. There are roughly 1,200 landfills currently in operation, and on average, each one takes up about 600 acres of land, the equivalent of 480 football fields.

Landfills are also a hotbed for waste, from decomposing vegetable scraps and meat bones to worn household appliances, which produce copious amounts of methane, a greenhouse gas with a warming effect 80 times as powerful as carbon dioxide over a 20-year period.

A new study published in the journal Science found the rate of methane emissions from landfills is three times as large as the rate previously reported to federal regulators. In combination with methane’s high potency, the study’s findings add to a growing body of evidence about how landfills around the globe significantly contribute to global warming and highlight the need for reforms, both in the infrastructure of landfills and the way Americans dispose of waste.

The study used a new technology, an imaging spectrometer, which measures electromagnetic radiation to detect and measure processes in the Earth’s atmosphere, to collect data on methane emissions from 20% of the country’s largest landfills. Before the advent of this technology, estimates of methane emissions were based mostly on computer models, which, according to the study, are less than optimal, given the unique circumstances of each landfill and its operational oversight. Previously reported methane emission estimates are also likely lower than reality, as a result of the dangerous nature of manually measuring emissions at landfills, which require workers to walk around dumps with handheld sensors.

Landfills often contain layers upon layers of garbage, encompassing everything from decomposing food scraps and plastic to household appliances and paper, that pile up for decades. When food waste ends up buried in these layers, it decomposes without much oxygen and, as a result, releases methane.

“You can sometimes get decades of trash that’s sitting under the landfill,” according to Daniel Cusworth, the lead author of the study and a climate scientist at the University of Arizona. As he told the New York Times, “We call it a garbage lasagna.”

Among the most common atmospheric greenhouse gases, methane isn’t the most abundant or the longest-lasting in the atmosphere, but its potent warming effect is 80 times as powerful as the most common greenhouse gas, carbon dioxide. That means it can significantly contribute to global warming, and in turn, spur climate-change–related events, such as intense storms, rising sea levels, heat waves, and drought, which are just some of the catastrophes that can occur.

In the new study, scientists collected data using airplane flyovers and imaging spectrometers to measure concentrations, or plumes, of methane in the air. Planes flew across 18 states and over 250 landfill sites between 2018 and 2022. At more than half of the landfills surveyed, researchers detected methane hotspots that suggest something had gone wrong at the site, like a big methane leak from long-buried trash.

Many landfills contain wells and pipes meant to capture methane leaks, and the gases are sometimes then collected and burned to produce electricity or heat. With the new technology used in the study, landfill operators and federal regulators will more easily be able to pinpoint and flare methane leaks.

The Environmental Protection Agency considers landfills to be the third-largest source of human-caused methane pollution in the country, accounting for roughly 14% of these emissions in 2022 and equal to the yearly emissions of 24 million cars. Atmospheric levels of methane, which is measured in parts per billion, are now more than 160% higher than preindustrial levels, according to Oceanic and Atmospheric Research, a group that investigates systems affecting the planet.

The high levels of methane will contribute to climate-related disasters while also posing health risks to wildlife and families who live near landfills, including odors, smoke, smog, and water-supply contamination. What’s worse is those living in low-income areas are most likely to live with those risks, and have fewer financial resources to oppose the placement of waste facilities.

To be sure, landfill reforms are a pressing need—but changes in how people dispose of food waste can also be impactful in reducing methane emissions at waste sites. Food waste that is composted, for example, undergoes an aerobic, or oxygenated, decomposition, a process that doesn’t release methane owing to the presence of oxygen.

Industries like landfills, agriculture, and oil and gas production are among the sectors that emit the most methane, and have been under intense scrutiny by scientists and environmental activists in recent years. Oil Change International, a fossil fuel research and advocacy group, recently examined climate plans and pledges from the eight largest U.S.- and European-based international oil and gas producers, and found that none of the plans were compatible with limiting global warming to 1.5 degrees Celsius above preindustrial levels—a threshold scientists warn will have disastrous effects when breached.

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