北極有望成為“活體實(shí)驗(yàn)室”
Agostino Petroni, Daria Solovieva
2022-01-05
2021年的聯(lián)合國氣候變化大會(huì)(COP 26)號(hào)召各國精誠合作,攜手緩解氣候變化,。沒有哪個(gè)地區(qū)比北極更能夠彰顯這項(xiàng)呼吁的緊迫性,。
北極的氣溫上升速度至少是全球其他地區(qū)的三倍,當(dāng)?shù)丨h(huán)境和經(jīng)濟(jì)由此遭受重創(chuàng),。北極冰蓋正在變薄,,促使海平面上升,不斷侵蝕沿海地區(qū),;永久凍土正在融化,,向大氣釋放甲烷和二氧化碳等有毒氣體,危及現(xiàn)有的基礎(chǔ)設(shè)施,。而北冰洋也在酸化,,威脅著漁業(yè)和海洋環(huán)境的未來,。
20多年來,,北極面臨的獨(dú)特挑戰(zhàn)——?dú)夂蜃兓俣燃涌臁⒌靥幤h(yuǎn),、豐富的自然資源亟需保護(hù)——為8個(gè)北極國家提供了一個(gè)協(xié)力應(yīng)對(duì)氣候變化的實(shí)驗(yàn)室,。
也正是這些嚴(yán)酷的環(huán)境,促使私營部門和政府機(jī)構(gòu)對(duì)北極的興趣日益濃厚,。比如,,美國能源部(U.S. Department of Energy)的網(wǎng)站刊文指出,北極有望成為“清潔能源創(chuàng)新的活體實(shí)驗(yàn)室”,。
“北極社區(qū)正在積極部署和整合風(fēng)能,、太陽能,、地?zé)帷⑸镔|(zhì)能,、儲(chǔ)能,、節(jié)能建筑等清潔能源技術(shù)。不止是北極,,這些技術(shù)對(duì)其他地區(qū)同樣意義重大,。”美國能源部北極能源辦公室(DOE’s Arctic Energy Office)的臨時(shí)主任喬治·羅伊對(duì)《財(cái)富》雜志表示,,“北極項(xiàng)目通常規(guī)模較小,,能源成本較高。因此,,與該地區(qū)之外的機(jī)會(huì)相比,,這些試點(diǎn)項(xiàng)目能夠以更低的資本支出和更快的投資回收期來向前推進(jìn)?!?/p>
世界的氣候?qū)嶒?yàn)室
北極地區(qū)橫跨1450萬平方公里,,與加拿大、冰島,、挪威,、丹麥、芬蘭,、瑞典,、俄羅斯和美國接壤。這些北方國家擁有采礦,、石油開采,、漁業(yè)和旅游業(yè)等價(jià)值數(shù)十億美元的產(chǎn)業(yè)。在這片區(qū)域,,人們對(duì)氣候變化的感受更加熾烈,,許多政府、跨國公司和科學(xué)家被迫展開合作,。
“了解未來氣候變化對(duì)北極的影響,,不僅對(duì)北極國家,而且對(duì)全球社會(huì)來說都非常重要,?!泵绹鴩液Q蠛痛髿夤芾砭郑∟ational Oceanic and Atmospheric Administration)氣候項(xiàng)目辦公室(Climate Program Office)的副主任本·迪安杰洛說,“在北極地區(qū),,許多氣候和環(huán)境因素正在變化,,不僅影響著野生動(dòng)物,也影響到北極社區(qū),特別是原住民社區(qū),?!?
2015年,總部設(shè)在赫爾辛基的北歐投資銀行(Nordic Investment Bank)建立了一套北極借貸便利機(jī)制(Arctic Lending Facility),。該行的可持續(xù)發(fā)展主管盧卡·德·洛倫佐介紹說,,北歐投資銀行一直在為那些有利于當(dāng)?shù)亟?jīng)濟(jì)活動(dòng)的基礎(chǔ)設(shè)施項(xiàng)目提供融資支持,并且越來越關(guān)注其投資對(duì)環(huán)境和可持續(xù)發(fā)展的影響,。
“北極非常偏遠(yuǎn),,這可能使我們的業(yè)務(wù)更加復(fù)雜、規(guī)模更小,,但卻極其重要,。”德·洛倫佐說,,“生態(tài)系統(tǒng)退化的風(fēng)險(xiǎn)很高,,我們需要保護(hù)環(huán)境,避免過去在其他地方犯下的錯(cuò)誤,?!?/p>
非營利性創(chuàng)業(yè)加速器Launch Alaska的首席創(chuàng)新官羅布·羅伊斯表示,在阿拉斯加和世界各地,,“對(duì)氣候技術(shù)的投資興趣肯定會(huì)越來越大,。”該公司一直在勠力支持企業(yè)將部署在北極的技術(shù)規(guī)?;?,以更好地對(duì)抗氣候變化。他指出,,與一年前相比,,Launch Alaska旗下的投資組合公司在2020年的總投資額幾乎增加了兩倍。
“我們相信,,創(chuàng)業(yè)公司是阿拉斯加駕馭這種轉(zhuǎn)變,,并重塑全州環(huán)境和經(jīng)濟(jì)的關(guān)鍵所在?!绷_伊斯說,。
可再生能源
除了石油和天然氣,北極在生產(chǎn)可再生能源方面具有得天獨(dú)厚的條件,,因?yàn)檫@片廣袤的區(qū)域擁有充沛的風(fēng)能,、太陽能,、地?zé)岷退Y源?,F(xiàn)在有越來越多的項(xiàng)目開始發(fā)力解決阿拉斯加近年來面臨的產(chǎn)油能力下降問題。
“我們正懷抱著緊迫的使命感,,在阿拉斯加和北極部署食品,、水,、交通和能源問題的解決方案,希望幫助世界早日脫碳,?!绷_伊斯說,“畢竟,,如果你可以在阿拉斯加做到這一點(diǎn),,你就能夠在任何地方做到這一點(diǎn)?!?/p>
向可再生能源的轉(zhuǎn)變,,也在推動(dòng)全球?qū)︹S和鐠等特定自然資源的需求。這些在北極儲(chǔ)量相對(duì)豐富的稀土金屬,,正在促使當(dāng)?shù)仄髽I(yè)和政府探索新的經(jīng)濟(jì)機(jī)會(huì),。但如果要維持廣大居民的生計(jì),并保護(hù)當(dāng)?shù)刈匀痪坝^的話,,這些利益集團(tuán)就必須攜手合作,。
挪威弗里德約夫·南森研究所(Fridtjof Nansen Institute)的高級(jí)研究員斯韋恩·維格蘭德·羅特姆坦言,由于氣候條件異常嚴(yán)酷,,并且缺乏基礎(chǔ)設(shè)施,,探索北方航線仍然是一件危險(xiǎn)重重的事情,即使北方海路(Northern Sea Route)或西北航道(Northwest Passage)未來有望將美國,、歐洲和亞洲之間的旅行時(shí)間縮短40%,。
“北極航線要想挑戰(zhàn)蘇伊士運(yùn)河或巴拿馬運(yùn)河的航運(yùn)樞紐地位,還需要很多很多年,?!绷_特姆指出。
美國能源部聯(lián)合橡樹嶺科學(xué)與教育研究所(Oak Ridge Institute for Science and Education)和阿拉斯加大學(xué)費(fèi)爾班克斯分校(University of Alaska Fairbanks),,一直在資助北極先進(jìn)制造業(yè)創(chuàng)新者計(jì)劃(Arctic Advanced Manufacturing Innovator Program),,希望借此助力企業(yè)家潛心解決該地區(qū)面臨的技術(shù)挑戰(zhàn)。
化學(xué)工程師內(nèi)森·普瑞斯科就是該計(jì)劃的受益者之一,。他參與創(chuàng)建的初創(chuàng)公司Mighty Pipeline正在開發(fā)一項(xiàng)技術(shù),,使氫氣能夠以氨的形式通過現(xiàn)有的石油管道向外輸送,然后從管道中提取氫氣,,用作清潔燃料,。盡管阿拉斯加擁有令人難以置信的水電潛力,但這些資源往往被深鎖在不足以支持商業(yè)開發(fā)的偏遠(yuǎn)地區(qū),。
“與其建設(shè)一個(gè)覆蓋全州的電力基礎(chǔ)設(shè)施,,不如在偏遠(yuǎn)地區(qū)建設(shè)水電項(xiàng)目,從水和可再生電力中生產(chǎn)氨?!逼杖鹚箍普f,,“如果我們的技術(shù)成功地實(shí)現(xiàn)商業(yè)化,其凈影響就將為阿拉斯加的氫/氨項(xiàng)目帶來數(shù)百億美元的新投資,。這個(gè)項(xiàng)目暫定于2030年投入運(yùn)營,,以滿足全球?qū)ΑG色’和‘藍(lán)色’氫或氨的高漲需求?!?/p>
普瑞斯科聲稱,,將阿拉斯加輸油管(Trans-Alaska Pipeline System)轉(zhuǎn)換為氨氣服務(wù)系統(tǒng),有望將其運(yùn)營時(shí)間延長數(shù)十年之久,。這將使得他的項(xiàng)目對(duì)公用事業(yè)公司,、天然氣公司和海上加油站產(chǎn)生吸引力,同時(shí)有助于促進(jìn)整個(gè)地區(qū)的可再生氫氣項(xiàng)目,。
政府資助
除了清潔能源初創(chuàng)企業(yè),,還有一些政府間倡議尋求將傳統(tǒng)產(chǎn)業(yè)和新興產(chǎn)業(yè)結(jié)合起來。
成立于1996年的北極理事會(huì)(Arctic Council),,自稱是“促進(jìn)北極合作的主要政府間論壇”,。它一直在調(diào)節(jié)各國政府及其原住民的利益,并致力于解決生物多樣性保護(hù)和有機(jī)物污染等環(huán)境問題,。該組織還為北部地區(qū)的航運(yùn)創(chuàng)建了一個(gè)跟蹤和安全系統(tǒng),。
北極理事會(huì)通過其北極采礦業(yè)生物多樣性項(xiàng)目(Mainstreaming Biodiversity in Arctic Mining),就如何在該地區(qū)作業(yè)期間保護(hù)生物多樣性和野生動(dòng)物向采礦業(yè)提供指導(dǎo),。由此可見,,這個(gè)項(xiàng)目非常認(rèn)可采礦業(yè)可能給北極社區(qū)帶來的經(jīng)濟(jì)機(jī)會(huì),同時(shí)也在最大程度地減少該行業(yè)對(duì)環(huán)境的影響,。
2020年,,美國能源部重新設(shè)立了由喬治·羅伊領(lǐng)銜的北極能源辦公室。他介紹說,,該辦公室正在與美國能源部的其他部門合作,,為一些撥款項(xiàng)目和諸如ArcticX在線研討會(huì)這類外聯(lián)活動(dòng)提供支持。ArcticX旨在促進(jìn)“能源轉(zhuǎn)換技術(shù)商業(yè)化落地,,從而造福于北極和其他地區(qū)的社區(qū)和企業(yè),。”
盡管以推動(dòng)北極可持續(xù)發(fā)展為使命的倡議,、研究項(xiàng)目和承諾不斷涌現(xiàn),,但其中許多技術(shù)的可行性和商業(yè)化前景仍然處于早期階段。而且,,并不是所有分配給北極的投資都是以可持續(xù)發(fā)展為導(dǎo)向,,或者都是專注于應(yīng)對(duì)氣候變化的,。
在全球問責(zé),并對(duì)化石燃料密集型商業(yè)實(shí)踐的影響承擔(dān)起責(zé)任方面,,北極也是國際合作和過渡到可持續(xù)性實(shí)踐的起點(diǎn)。
2021年成為北極理事會(huì)輪值主席國后,,俄羅斯承諾將加強(qiáng)負(fù)責(zé)任的治理,,以推動(dòng)北極的可持續(xù)發(fā)展。俄方表示,,未來兩年,,北極理事會(huì)將專注于應(yīng)對(duì)氣候變化和可持續(xù)的社會(huì)經(jīng)濟(jì)發(fā)展,同時(shí)保護(hù)北極居民的利益和當(dāng)?shù)丨h(huán)境,。
盡管目前還不知道這些可持續(xù)發(fā)展承諾將如何落地,,但包括弗里德約夫·南森研究所的羅特姆在內(nèi),許多北極專家都指出,,各國可以從正在北極開展的政治合作中汲取經(jīng)驗(yàn),。
“許多國家秉承國際法的精神,在北極開展合作,?!睂W⒂诒睒O政策問題的智庫北極研究所(Arctic Institute)的臨時(shí)所長莉蓮·胡松說,“他們正在合作,。但對(duì)于世界其他地區(qū)發(fā)生的事情,,我們就不一定能夠給出這樣的評(píng)價(jià)了?!保ㄘ?cái)富中文網(wǎng))
譯者:任文科
2021年的聯(lián)合國氣候變化大會(huì)(COP 26)號(hào)召各國精誠合作,,攜手緩解氣候變化。沒有哪個(gè)地區(qū)比北極更能夠彰顯這項(xiàng)呼吁的緊迫性,。
北極的氣溫上升速度至少是全球其他地區(qū)的三倍,,當(dāng)?shù)丨h(huán)境和經(jīng)濟(jì)由此遭受重創(chuàng)。北極冰蓋正在變薄,,促使海平面上升,,不斷侵蝕沿海地區(qū);永久凍土正在融化,,向大氣釋放甲烷和二氧化碳等有毒氣體,,危及現(xiàn)有的基礎(chǔ)設(shè)施。而北冰洋也在酸化,,威脅著漁業(yè)和海洋環(huán)境的未來,。
20多年來,北極面臨的獨(dú)特挑戰(zhàn)——?dú)夂蜃兓俣燃涌?、地處偏遠(yuǎn),、豐富的自然資源亟需保護(hù)——為8個(gè)北極國家提供了一個(gè)協(xié)力應(yīng)對(duì)氣候變化的實(shí)驗(yàn)室,。
也正是這些嚴(yán)酷的環(huán)境,促使私營部門和政府機(jī)構(gòu)對(duì)北極的興趣日益濃厚,。比如,,美國能源部(U.S. Department of Energy)的網(wǎng)站刊文指出,北極有望成為“清潔能源創(chuàng)新的活體實(shí)驗(yàn)室”,。
“北極社區(qū)正在積極部署和整合風(fēng)能,、太陽能、地?zé)?、生物質(zhì)能,、儲(chǔ)能、節(jié)能建筑等清潔能源技術(shù),。不止是北極,,這些技術(shù)對(duì)其他地區(qū)同樣意義重大?!泵绹茉床勘睒O能源辦公室(DOE’s Arctic Energy Office)的臨時(shí)主任喬治·羅伊對(duì)《財(cái)富》雜志表示,,“北極項(xiàng)目通常規(guī)模較小,能源成本較高,。因此,,與該地區(qū)之外的機(jī)會(huì)相比,這些試點(diǎn)項(xiàng)目能夠以更低的資本支出和更快的投資回收期來向前推進(jìn),?!?/p>
世界的氣候?qū)嶒?yàn)室
北極地區(qū)橫跨1450萬平方公里,與加拿大,、冰島,、挪威、丹麥,、芬蘭,、瑞典、俄羅斯和美國接壤,。這些北方國家擁有采礦,、石油開采、漁業(yè)和旅游業(yè)等價(jià)值數(shù)十億美元的產(chǎn)業(yè),。在這片區(qū)域,,人們對(duì)氣候變化的感受更加熾烈,許多政府,、跨國公司和科學(xué)家被迫展開合作,。
“了解未來氣候變化對(duì)北極的影響,不僅對(duì)北極國家,,而且對(duì)全球社會(huì)來說都非常重要,?!泵绹鴩液Q蠛痛髿夤芾砭郑∟ational Oceanic and Atmospheric Administration)氣候項(xiàng)目辦公室(Climate Program Office)的副主任本·迪安杰洛說,“在北極地區(qū),,許多氣候和環(huán)境因素正在變化,,不僅影響著野生動(dòng)物,也影響到北極社區(qū),,特別是原住民社區(qū),。”
2015年,,總部設(shè)在赫爾辛基的北歐投資銀行(Nordic Investment Bank)建立了一套北極借貸便利機(jī)制(Arctic Lending Facility),。該行的可持續(xù)發(fā)展主管盧卡·德·洛倫佐介紹說,,北歐投資銀行一直在為那些有利于當(dāng)?shù)亟?jīng)濟(jì)活動(dòng)的基礎(chǔ)設(shè)施項(xiàng)目提供融資支持,,并且越來越關(guān)注其投資對(duì)環(huán)境和可持續(xù)發(fā)展的影響。
“北極非常偏遠(yuǎn),,這可能使我們的業(yè)務(wù)更加復(fù)雜,、規(guī)模更小,但卻極其重要,?!钡隆ぢ鍌愖粽f,“生態(tài)系統(tǒng)退化的風(fēng)險(xiǎn)很高,,我們需要保護(hù)環(huán)境,,避免過去在其他地方犯下的錯(cuò)誤?!?/p>
非營利性創(chuàng)業(yè)加速器Launch Alaska的首席創(chuàng)新官羅布·羅伊斯表示,,在阿拉斯加和世界各地,“對(duì)氣候技術(shù)的投資興趣肯定會(huì)越來越大,?!痹摴疽恢痹趧哿χС制髽I(yè)將部署在北極的技術(shù)規(guī)模化,,以更好地對(duì)抗氣候變化,。他指出,與一年前相比,,Launch Alaska旗下的投資組合公司在2020年的總投資額幾乎增加了兩倍,。
“我們相信,創(chuàng)業(yè)公司是阿拉斯加駕馭這種轉(zhuǎn)變,,并重塑全州環(huán)境和經(jīng)濟(jì)的關(guān)鍵所在,。”羅伊斯說,。
可再生能源
除了石油和天然氣,,北極在生產(chǎn)可再生能源方面具有得天獨(dú)厚的條件,,因?yàn)檫@片廣袤的區(qū)域擁有充沛的風(fēng)能、太陽能,、地?zé)岷退Y源?,F(xiàn)在有越來越多的項(xiàng)目開始發(fā)力解決阿拉斯加近年來面臨的產(chǎn)油能力下降問題。
“我們正懷抱著緊迫的使命感,,在阿拉斯加和北極部署食品,、水、交通和能源問題的解決方案,,希望幫助世界早日脫碳,。”羅伊斯說,,“畢竟,,如果你可以在阿拉斯加做到這一點(diǎn),你就能夠在任何地方做到這一點(diǎn),?!?/p>
向可再生能源的轉(zhuǎn)變,也在推動(dòng)全球?qū)︹S和鐠等特定自然資源的需求,。這些在北極儲(chǔ)量相對(duì)豐富的稀土金屬,,正在促使當(dāng)?shù)仄髽I(yè)和政府探索新的經(jīng)濟(jì)機(jī)會(huì)。但如果要維持廣大居民的生計(jì),,并保護(hù)當(dāng)?shù)刈匀痪坝^的話,,這些利益集團(tuán)就必須攜手合作。
挪威弗里德約夫·南森研究所(Fridtjof Nansen Institute)的高級(jí)研究員斯韋恩·維格蘭德·羅特姆坦言,,由于氣候條件異常嚴(yán)酷,,并且缺乏基礎(chǔ)設(shè)施,探索北方航線仍然是一件危險(xiǎn)重重的事情,,即使北方海路(Northern Sea Route)或西北航道(Northwest Passage)未來有望將美國,、歐洲和亞洲之間的旅行時(shí)間縮短40%。
“北極航線要想挑戰(zhàn)蘇伊士運(yùn)河或巴拿馬運(yùn)河的航運(yùn)樞紐地位,,還需要很多很多年,。”羅特姆指出,。
美國能源部聯(lián)合橡樹嶺科學(xué)與教育研究所(Oak Ridge Institute for Science and Education)和阿拉斯加大學(xué)費(fèi)爾班克斯分校(University of Alaska Fairbanks),,一直在資助北極先進(jìn)制造業(yè)創(chuàng)新者計(jì)劃(Arctic Advanced Manufacturing Innovator Program),希望借此助力企業(yè)家潛心解決該地區(qū)面臨的技術(shù)挑戰(zhàn),。
化學(xué)工程師內(nèi)森·普瑞斯科就是該計(jì)劃的受益者之一,。他參與創(chuàng)建的初創(chuàng)公司Mighty Pipeline正在開發(fā)一項(xiàng)技術(shù),使氫氣能夠以氨的形式通過現(xiàn)有的石油管道向外輸送,,然后從管道中提取氫氣,,用作清潔燃料,。盡管阿拉斯加擁有令人難以置信的水電潛力,但這些資源往往被深鎖在不足以支持商業(yè)開發(fā)的偏遠(yuǎn)地區(qū),。
“與其建設(shè)一個(gè)覆蓋全州的電力基礎(chǔ)設(shè)施,,不如在偏遠(yuǎn)地區(qū)建設(shè)水電項(xiàng)目,從水和可再生電力中生產(chǎn)氨,?!逼杖鹚箍普f,“如果我們的技術(shù)成功地實(shí)現(xiàn)商業(yè)化,,其凈影響就將為阿拉斯加的氫/氨項(xiàng)目帶來數(shù)百億美元的新投資,。這個(gè)項(xiàng)目暫定于2030年投入運(yùn)營,以滿足全球?qū)ΑG色’和‘藍(lán)色’氫或氨的高漲需求,?!?/p>
普瑞斯科聲稱,將阿拉斯加輸油管(Trans-Alaska Pipeline System)轉(zhuǎn)換為氨氣服務(wù)系統(tǒng),,有望將其運(yùn)營時(shí)間延長數(shù)十年之久,。這將使得他的項(xiàng)目對(duì)公用事業(yè)公司,、天然氣公司和海上加油站產(chǎn)生吸引力,,同時(shí)有助于促進(jìn)整個(gè)地區(qū)的可再生氫氣項(xiàng)目。
政府資助
除了清潔能源初創(chuàng)企業(yè),,還有一些政府間倡議尋求將傳統(tǒng)產(chǎn)業(yè)和新興產(chǎn)業(yè)結(jié)合起來,。
成立于1996年的北極理事會(huì)(Arctic Council),自稱是“促進(jìn)北極合作的主要政府間論壇”,。它一直在調(diào)節(jié)各國政府及其原住民的利益,,并致力于解決生物多樣性保護(hù)和有機(jī)物污染等環(huán)境問題。該組織還為北部地區(qū)的航運(yùn)創(chuàng)建了一個(gè)跟蹤和安全系統(tǒng),。
北極理事會(huì)通過其北極采礦業(yè)生物多樣性項(xiàng)目(Mainstreaming Biodiversity in Arctic Mining),,就如何在該地區(qū)作業(yè)期間保護(hù)生物多樣性和野生動(dòng)物向采礦業(yè)提供指導(dǎo)。由此可見,,這個(gè)項(xiàng)目非常認(rèn)可采礦業(yè)可能給北極社區(qū)帶來的經(jīng)濟(jì)機(jī)會(huì),,同時(shí)也在最大程度地減少該行業(yè)對(duì)環(huán)境的影響。
2020年,,美國能源部重新設(shè)立了由喬治·羅伊領(lǐng)銜的北極能源辦公室,。他介紹說,該辦公室正在與美國能源部的其他部門合作,,為一些撥款項(xiàng)目和諸如ArcticX在線研討會(huì)這類外聯(lián)活動(dòng)提供支持,。ArcticX旨在促進(jìn)“能源轉(zhuǎn)換技術(shù)商業(yè)化落地,從而造福于北極和其他地區(qū)的社區(qū)和企業(yè),?!?/p>
盡管以推動(dòng)北極可持續(xù)發(fā)展為使命的倡議,、研究項(xiàng)目和承諾不斷涌現(xiàn),但其中許多技術(shù)的可行性和商業(yè)化前景仍然處于早期階段,。而且,,并不是所有分配給北極的投資都是以可持續(xù)發(fā)展為導(dǎo)向,或者都是專注于應(yīng)對(duì)氣候變化的,。
在全球問責(zé),,并對(duì)化石燃料密集型商業(yè)實(shí)踐的影響承擔(dān)起責(zé)任方面,北極也是國際合作和過渡到可持續(xù)性實(shí)踐的起點(diǎn),。
2021年成為北極理事會(huì)輪值主席國后,,俄羅斯承諾將加強(qiáng)負(fù)責(zé)任的治理,以推動(dòng)北極的可持續(xù)發(fā)展,。俄方表示,,未來兩年,北極理事會(huì)將專注于應(yīng)對(duì)氣候變化和可持續(xù)的社會(huì)經(jīng)濟(jì)發(fā)展,,同時(shí)保護(hù)北極居民的利益和當(dāng)?shù)丨h(huán)境,。
盡管目前還不知道這些可持續(xù)發(fā)展承諾將如何落地,但包括弗里德約夫·南森研究所的羅特姆在內(nèi),,許多北極專家都指出,,各國可以從正在北極開展的政治合作中汲取經(jīng)驗(yàn)。
“許多國家秉承國際法的精神,,在北極開展合作,。”專注于北極政策問題的智庫北極研究所(Arctic Institute)的臨時(shí)所長莉蓮·胡松說,,“他們正在合作,。但對(duì)于世界其他地區(qū)發(fā)生的事情,我們就不一定能夠給出這樣的評(píng)價(jià)了,?!保ㄘ?cái)富中文網(wǎng))
譯者:任文科
As the UN Climate Change Conference (COP 26) called on nations to cooperate on mitigating climate change, nowhere is this call more urgent than in the Arctic region.
The temperature in the territory is rising at least three times as fast as across the rest of the globe, with dramatic consequences for the environment and local economies. The Arctic ice cap is thinning, prompting a rise in sea level and the erosion of coastal areas; permafrost is thawing, releasing toxic gases like methane and carbon dioxide into the atmosphere and endangering existing infrastructure. And the Arctic Ocean is acidifying, threatening the future of fisheries and marine environments.
For over two decades, the Arctic’s unique challenges—its accelerated pace of change, remoteness, and wealth of natural resources in need of protection—have provided a test laboratory for the eight Arctic countries to coordinate their response to climate change.
Increasingly, these harsh conditions have prompted a rise in interest in the Arctic region from both the private sector as well as government entities such as the U.S. Department of Energy that view the Arctic’s potential as a “a living laboratory of clean energy innovation,” according to the agency’s website.
“The Arctic communities are actively involved in the deployment and integration of clean energy technologies like wind, solar, geothermal, biomass, energy storage, energy-[efficient] buildings [that have] strong relevance beyond the region,” George Roe, interim director of the DOE’s Arctic Energy Office, told Fortune. “The Arctic projects typically have smaller scale and higher cost of energy, so these can enable pilot projects to go forward with lower capital expense and accelerated payback time frames, relative to opportunities outside the region.”
The world’s climate laboratory
The Arctic region spans a territory of 14.5 million square kilometers bordering Canada, Iceland, Norway, Denmark, Finland, Sweden, Russia, and the United States. These northern nations, home to multibillion-dollar industries from mining and oil drilling to fisheries and tourism, are where multiple governments, global corporations, and scientists are forced to cooperate in a region in which the pace of climate change is felt more acutely.
“It’s very important for not just the Arctic countries but really for the global community to understand what the implications are for the Arctic of a future climate change,” said Ben DeAngelo, deputy director of the Climate Program Office at the National Oceanic and Atmospheric Administration (NOAA). “There are a number of climate and environmental factors changing in the Arctic that are affecting not only wildlife but also communities in the Arctic, especially indigenous communities.”
Luca de Lorenzo, head of sustainability at Helsinki-based Nordic Investment Bank (NIB), which established an Arctic Lending Facility in 2015, said NIB has been financing infrastructure projects that benefit local economic activity in the territory and is increasingly focusing on the environmental and sustainability aspects of its investments.
“The remote nature of the Arctic regions makes business possibly more complex and smaller in scale, yet extremely relevant,” de Lorenzo said. “The risk of degradation of ecosystems is high, and we need to protect the environment and avoid mistakes done in the past elsewhere.”
There is “most definitely a growing interest in investment in climate tech,” in Alaska and globally, according to Rob Roys, chief innovation officer at nonprofit startup accelerator Launch Alaska, which supports companies looking to scale their technologies in the Arctic region to fight climate change. He noted the total investment volume nearly tripled in 2020 compared with a year ago within Launch Alaska’s portfolio companies.
“We believe startups are the key to Alaska’s ability in navigating this transition and reshaping the state’s environment and economy,” Roys said.
Renewable energy
Besides oil and gas, the Arctic is uniquely equipped to produce renewable energy because it possesses massive wind, solar, geothermal, and hydro resources. A growing number of solutions are aimed at addressing Alaska’s declining oil productivity in recent years.
“We’re on a mission to urgently decarbonize our world by deploying solutions to food, water, transportation, and energy problems in Alaska and the Arctic,” said Roys. “After all, if you can do it in Alaska, you can do it anywhere.”
The transition to renewable energy is also fueling global demand for specific natural resources such as neodymium and praseodymium, rare earth metals found in relative abundance in the Arctic. This is prompting the region’s companies and governments to explore new economic opportunities. But these interests will need to cooperate if they are to preserve and sustain the livelihoods of those who live in the territory, as well as safeguard its natural landscape.
According to Svein Vigeland Rottem, senior research fellow at Norway’s Fridtjof Nansen Institute, the harsh climatic conditions and lack of infrastructure still make it dangerous to explore northern shipping routes, even though in future the Northern Sea Route or the Northwest Passage could shorten travel time between the U.S., Europe, and Asia by 40%.
“It will be many, many years before the Arctic routes will challenge the Suez Canal or the Panama Canal, Rottem noted.
Together with the Oak Ridge Institute for Science and Education and the University of Alaska Fairbanks, the U.S. Department of Energy has been funding the Arctic Advanced Manufacturing Innovator Program, aimed at supporting entrepreneurs who address technology challenges in the region.
Nathan Prisco, a chemical engineer receiving support from the DOE, has helped found Mighty Pipeline, a startup that’s developing a technology enabling hydrogen to be transported through existing oil pipelines in the form of ammonia, from which the hydrogen can later be extracted for use as a clean fuel. Although Alaska has incredible hydropower potential, these resources are often locked away in remote areas where the business case to develop them is poor.
“Rather than build a statewide electrical infrastructure, remote hydropower projects can be built to produce ammonia from water and renewable electricity,” Prisco said. “The net impacts of our technology, if successfully commercialized, would result in tens of billions of dollars in new investment in Alaskan hydrogen/ammonia projects. Tentatively, this project would be slated for 2030 to match announced global demand for ‘green’ and ‘blue’ hydrogen or ammonia,” Prisco said.
According to Prisco, converting the Trans-Alaska Pipeline System into an ammonia service would enable it to operate for decades longer, making his project attractive to utilities, gas companies, and marine refueling stations, while helping to foster other renewable hydrogen projects across the region.
Government funding
In addition to clean energy startups, there are intergovernmental initiatives to bring traditional and emerging industries together.
Founded in 1996, the Arctic Council, self-described as “the leading intergovernmental forum promoting cooperation in the Arctic,” has mediated between states and their indigenous populations’ interests and has worked on environmental issues such as biodiversity protection and the effects of organic pollutants in the region. It has also created a tracking and security system for shipping in the northern reaches.
Through its Mainstreaming Biodiversity in Arctic Mining project, the Arctic Council provides guidance to the mining industry in how it might protect biodiversity and wildlife during its operations in the area: As such, the project acknowledges the economic opportunity that mining might bring to Arctic communities, while minimizing its environmental impact.
The U.S. Department of Energy reestablished the Arctic Energy Office last year. According to its director, George Roe, the office is collaborating with the DOE’s other branches to support a number of grants and outreach initiatives such as the ArcticX webinars aimed at fostering the commercialization and mobilization of “energy transition technologies that will make a difference in the communities and businesses of the North and beyond.”
While there are a lot of initiatives, research projects, and pledges around sustainability in the Arctic, the viability and commercialization prospects of many of these technologies remain in early stages. And not all of the investments allocated to the Arctic are necessarily sustainable or dedicated to combating climate change.
When it comes to global accountability and being held responsible for the impact of fossil fuel–intensive practices, the Arctic also serves as ground zero for international collaboration and the transition to more sustainable practices.
In 2021, when Russia received the chairmanship of the Arctic Council, it pledged to enhance responsible governance?for a more sustainable Arctic. Over the next two years, the Russian chairmanship said, it would focus primarily on fighting climate change and on sustainable socioeconomic development of the region while protecting Arctic inhabitants’ interests and the local environment.
While it remains to be seen what these sustainability pledges will mean in practice, regional experts like Rottem of the Fridtjof Nansen Institute note that states could learn from the political cooperation happening in the Arctic.
“The Arctic is a region where states have come together, and they’ve respected international law,” said Lillian Hussong, interim president of the Arctic Institute, a think tank focused on Arctic policy issues. “They’re cooperating, and that is not something we can necessarily say about other parts of the world.”
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