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环境视界|南极洲海域冰面面积创历史新低

南极洲海域冰面面积创历史新低

乔纳森·阿莫斯和埃尔文·里沃特报道

BBC科学记者和数据设计师


现在南极洲大陆周围的海洋冰面比我们从20世纪70年代末开始使用卫星测量以来的任何时候都少。

现在正处于南半球的夏天,据美国国家冰雪数据中心(National Snow and Ice Data Center)的数据显示,海洋冰面理论上会出现相应数量的减少,但是今年是例外。

2月13日,风、温暖的空气和水使冰面覆盖范围减少到只有191万平方公里(73.7万平方英里)。

更重要的是,今年夏天的融化期仍然需要一段时间才会结束。

去年,直到2月25日,才达到此前破纪录的最低点:192万平方公里(74.1万平方英里)。

过去七年中,前三年的较低海冰覆盖记录分别发生在2017年、2022年和现在的2023年。

研究船、游轮和渔船在绕过非洲大陆时都报告了类似的情况:大多数地区都几乎没有冰雪覆盖。只有威德尔海仍然被冰冻的浮冰所控制。


这个新记录有多不寻常?

科学家们认为南极海冰面目前的状况是一个复杂的现象,不能简单地归咎于气候变化。

从过去40多年的卫星数据来看,海洋冰面的范围显示出巨大的变化性。

在过去的几年里,夏季冰量是呈现明显下降趋势的。



计算机模型曾预测,它将呈现长期下降,就像我们在北极看到的那样,由于全球变暖,北极夏季海洋冰层的面积范围将每十年缩减总量的12%—13%。

但是南极洲的表现并不像那样。

卫星以外的数据来源让我们至少可以追溯到1900年。

这些数据表明,南极海洋冰层面积在上个世纪初同样处于下降状态,但随后便开始增加。

最近,它表现出巨大的变化性,有卫星纪录以来的冬季最大值,也有卫星纪录以来的夏季最小值。

在冬季,浮冰可以覆盖1800万平方公里(690万平方英里),甚至更多。 


一百万平方公里是多少冰?

与长期平均水平相比,今年夏季的冰盖面积大致是缺少了这么多。这足以覆盖不列颠群岛。




它很快就会重新开始生长,这一点很重要,因为有很多因素在影响它。

在海洋表面冻结的海水会排出盐分,使下面的水更加密集,导致海水下沉。

这是驱动大洋传送带引擎的一部分,水的大规模移动有助于调节气候系统中的能量。

海洋冰层对生活在地球两极的生命也是非常重要的。

在南极,附着在冰上的藻类是被称为磷虾的小型甲壳类动物的食物来源,而磷虾是鲸鱼、海豹、企鹅和其他鸟类的基本食物资源。

海洋冰层同样也是一个平台,一些物种会在上面停泊和休息。


暖空气增加融化

今年创纪录的海冰最低点很可能是受到南极半岛西部和东部异常高温的影响。

这些地区的温度已经比长期平均温度高出1.5摄氏度。



还有一种叫做南方环形模式(SAM)的东西,它也是影响该地区气候带的一个关键因素。

它反应了南极洲周围大气压力的变化,进而影响了该大陆著名的环绕西风。

据说该模式目前处于一个强烈的正相位。

这加强了盛行的西风带,并将它们推向极地。

增加的暴风雨有助于分解浮冰,并将它们推向北方较温暖的水域,使其融化。

研究人员认为,长期以来,在SAM中出现更积极的趋势可能与南极洲上空存在的臭氧空洞和大气中温室气体的增加有关。 


这与北极的冰雪融化相比如何?了解两极之间的差异是很重要的。北极是一个被大陆包围着的海洋。南极洲是一个被海洋包围的大陆。地理上的差异意味着南极冬季的冰雪增长受到的限制要少得多。只要条件允许,浮冰可以向北发展。


2022年9月至2023年1月

两张南极洲的图片:一张显示冬季该大陆周围的海冰延伸到数千公里的范围;另一张显示夏季除了威德尔海的一块冰之外,几乎所有的冰都已经消退。

资料来源:不莱梅大学环境物理研究所。

这就解释了为什么南极洲海冰的范围比北极地区大得多,北极地区的海冰最大值现在很少超过1500万平方公里(580万平方英里)。

但是地理环境也意味着夏季的温暖可以在许多地方将海冰一路吹回到南极洲的海岸线上。

而且,由于南极难以每年保持冰层,其浮冰比北极要薄,厚度通常只有1米或更少,而北极地区的长寿冰厚度则有3米至4米。

贝基·戴尔和嘉娜·陶钦斯基的补充报道



Antarctica sea-ice hits new record low

By Jonathan Amos and Erwan Rivault

BBC Science Correspondent and Data Designer


There is now less sea-ice surrounding the Antarctic continent than at any time since we began using satellites to measure it in the late 1970s.

It is the southern hemisphere summer, when you'd expect less sea-ice, but this year is exceptional, according to the National Snow and Ice Data Center.

Winds and warmer air and water reduced coverage to just 1.91 million square km (737,000 sq miles) on 13 February.

What is more, the melt still has some way to go this summer.

Last year, the previous record-breaking minimum of 1.92 million sq km (741,000 sq miles) wasn't reached until 25 February.

Three of the last record-breaking years for low sea-ice have happened in the past seven years: 2017, 2022 and now 2023.

Research, cruise and fishing vessels are all reporting a similar picture as they make passage around the continent: most sectors are virtually ice-free. 

Only the Weddell Sea remains dominated by frozen floes.

How unusual is this new record?

Scientists consider the behaviour of Antarctic sea-ice to be a complicated phenomenon which cannot simply be ascribed to climate change. 

Looking at the data from the last 40-odd years of available satellite data, the sea-ice extent shows great variability. A downward trend to smaller and smaller amounts of summer ice is only visible in the past few years.


Computer models had predicted that it would show long-term decline, much like we have seen in the Arctic, where summer sea-ice extent has been shrinking by 12-13% per decade as a result of global warming. 

But the Antarctic hasn't behaved like that. 

Data sources other than satellites allow us to look back at least as far as 1900.

These indicate Antarctic sea-ice was in a state of decline early in the last century, but then started to increase. 

Recently it has shown great variability, with record satellite winter maximums and now record satellite summer minimums as well. 

In winter, the floes can cover 18 million sq km (6.9 million sq miles), and more.

How much ice is a million sq km? 

It's broadly what this year's summer ice pack is missing compared with the longer-term average. That's enough to cover the British isles.


It will start growing again very soon and it's important that it does… for a host of reasons. 

Freezing seawater at the surface of the ocean expels salt, making the water below denser, causing it to sink. 

This is part of the engine that drives the great ocean conveyor - the mass movement of water that helps regulate energy in the climate system. 

Sea-ice is also hugely important for life at the poles. 

In the Antarctic, the algae that cling to the ice are a source of food for the small crustaceans known as krill, which are a basic food resource for whales, seals, penguins and other birds. 

The sea-ice is also a platform on which some species will haul out and rest.

Warm air increasing melt

It's likely this year's record sea-ice minimum has been influenced by the unusually high air temperatures to the west and east of the Antarctic Peninsula. 

These have been 1.5C above the long-term average.



There's also something called the Southern Annular Mode (SAM), which is a key player in the region. 

It describes variations in atmospheric pressure around Antarctica which in turn influence the continent's famous encircling westerly winds. 

The mode is said to be in a strongly positive phase at the moment. 

This strengthens the prevailing westerlies and drags them poleward. 

Increased storminess helps to break up floes and push them north into warmer waters to melt out. 

Researchers think the more positive trends seen in the SAM over the longer term are probably linked to the presence of an ozone hole over Antarctica and the rise of greenhouse gases in the atmosphere.

How does this compare to Arctic ice melt?

It's important to understand the differences between the poles. 

The Arctic is an ocean hemmed in by continents. The Antarctic is a continent surrounded by ocean. 

The divergence in geography means ice growth in winter in the Antarctic is much less constrained. The floes can develop as far north as conditions will allow.



This explains the much larger extents than in the Arctic, where the maximums rarely now get above 15 million sq km (5.8 million sq miles). 

But the geography also means summer warmth can chase the sea-ice all the way back to the Antarctic coastline in many places. 

And because the Antarctic has difficulty retaining ice from year to year, its floes are thinner than in the Arctic - generally just one metre or less, versus 3-4m for long-lived ice in the polar north. 

Additional reporting by Becky Dale and Jana Tauschinski


原文地址:https://www.bbc.com/news/science-environment-64649596

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