[SRM] Geotextiles could slow glacial melt, but at what cost?

[Renaud de RICHTER]

https://phys.org/news/2021-04-geotextiles-glacial.html

Geotextiles could slow glacial melt, but at what cost?

by Isabel Amos-Landgraf, Earth Institute at Columbia University

A researcher stands in front of the Rhone Glacier covered in geotextiles that protect it from accelerated melting. Credit: Matthias Huss

In the Swiss Alps, some ski resorts and glacial tourist attractions are using reflective blankets known as geotextiles to protect parts of glaciers from accelerated summer melt caused by global warming. These businesses' stable winter incomes enable them to fund the use of expensive geotextiles during summers. If geotextiles are able to save small portions of glaciers in the Swiss Alps, could they be employed on entire glaciers on a global scale? A study published earlier this year argues that this strategy would inevitably fail.

Researchers at the University of Fribourg in Switzerland looked at nine different Swiss sites currently using geotextiles to reduce glacial melt, and analyzed the possibility of using geotextiles on a larger scale. While the data in the study showed that these fabrics were able to locally reduce glacial melt by 59%, it also revealed that this strategy is too expensive to protect the more than 450,000 square miles of glaciers around the world.

Geotextiles slow summer ice melt in a number of ways. The albedo of the white textiles, or the reflectivity of their surfaces, is about 50% higher than the albedo of glacial ice. When the sun's radiation hits the geotextiles, a large amount of the energy that would have melted the ice is radiated back into the atmosphere. The textiles also collect rain, the evaporation of which cools the glacier. In addition, they provide insulation that stabilizes the ice's cooler temperatures.

At first glance, this technological adaptation to global warming is a promising solution for those passionate about glacier preservation. However, like other technological climate change solutions, such as carbon capture and storage or floodwalls, using geotextiles on a large scale is expensive and potentially detrimental to surrounding ecosystems. As a result, they have only been applied on small scales, mostly in an effort to preserve profitable ski runs.

One of the Swiss glaciers in the study covered annually to protect it from melting. Credit: Matthias Huss

According to the study, covering glaciers in Switzerland annually costs between 0.60 and 8.50 U.S. dollars per square meter per year. At this rate, the cost of installation and maintenance of a square kilometer of geotextile coverage would range from $600 to $8,500. Using the average of this cost range, $4,550, the cost of covering the total area of Swiss glaciers (1,000 square kilometers) would be $4.5 billion dollars—a significant expense, even for the wealthiest country in the world. The total glacier area on Earth is roughly 250,000 square kilometers. Though the cost per unit area would vary greatly from region to region, a rough initial estimate, based on the cost for Switzerland, places the cost of covering all glaciers at a bit above $1 trillion per year.

Matthias Huss, a glaciologist at the University of Zurich and one of the authors of the study, told GlacierHub why this is not the solution some may hope it is. "You can put a blanket in one place on a glacier, let's say a few hundred square meters, and you can very efficiently protect ice locally. This absolutely works, but it costs a lot of money," he explained. "If you have a corresponding economic revenue from the glacier, then this works. Saving an entire glacier is a completely different story. You would need to cover all of the ice on a much larger scale without a clear income benefit."

Huss and his team of researchers concluded that attempting to prevent glacial melt with geotextiles cannot replace efforts to mitigate greenhouse gas emissions: finding ways to mitigate global warming must take precedence over inefficient and expensive technological solutions to small-scale effects of climate change.

Christian Huggel, a professor of glaciology at the University of Zurich, spoke with GlacierHub about the implications of this study. "The conclusions confirm what we have been saying for a while: such geotextiles may be a temporary solution for a very local problem of glacier loss but are not scalable. And most importantly, they are by no means a solution for the problem of glacier shrinkage," he said. "For this problem, the only solution is to reduce CO₂ emissions as much as possible."

While this temporary and local solution does promise an extended life for some of Switzerland's most valued ski slopes, it does not offer a solution for the most dire problem facing the world's glaciers—the climate crisis.

More information: Matthias Huss et al. Quantifying the overall effect of artificial glacier melt reduction in Switzerland, 2005–2019, Cold Regions Science and Technology (2021). DOI: 10.1016/j.coldregions.2021.103237

[Andrew Lockley]

Quantifying the overall effect of artificial glacier melt reduction in Switzerland, 2005–2019

Author links open overlay panelMatthiasHussabcDanielFarinottiab

https://doi.org/10.1016/j.coldregions.2021.103237

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Under a Creative Commons licenseopen access

Highlights

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Active glacier melt reduction in Switzerland using geotextiles is applied at nine sites

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Artificial mitigation of ice melt is locally efficient but not scalable

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Investments for avoiding the melting of 1 cubic metre of ice range from 0.6 to 8 CHF per year

Abstract

The artificial reduction of glacier melt is gaining increased attention due to accelerated ice wastage with atmospheric warming. In Switzerland, active coverage of glaciers using geotextiles is performed at currently nine sites and since up to 15 years. The measures represent an efficient method to locally safeguard the operability of ski slopes or other touristic attractions. Here, we present an assessment of the evolution of geotextile-covered areas and the correspondingly avoided ice melt across the Swiss Alps. Presently, about 0.18 km2, or 0.02% of the total Swiss glacier area, is covered by geotextiles, with a doubling of the covered area since 2012. Up to 350,000 m3 of ice melt per year have been mitigated by this technique. We estimate the overall costs of active glacier melt reduction, and compute the price of 1 m3 of saved glacier ice, a number relevant for planning such measures. Average costs over the last decade range from 0.6 to 7.9 CHF m−3 yr−1 depending on the type of installation and its location on the glacier. These relatively high costs are an indication for the considerable economic value attributed to glacier ice. We also show that artificial melt reduction is not scalable. Whilst local interventions can be efficient and profitable, a hypothetical application to the larger scale shows that saving Alpine glaciers by technological solutions is neither achievable nor affordable.

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[Veli Albert Kallio]

Whilst wholly agreeing the conclusions of the study that the use of geotextiles would be a distraction to draw funds away from decarbonisation, it must be said that some countries dependent on water supplies from glaciers can buy time by covering ice to remain longer as frozen reservoir of water. It could also offer potential easement on excessive flooding by spreading melt water pulses wider. It also did not point out that not every glacier needs protection at the moment. While some glaciers would have to be terminally abandoned, others could be taken into protection in their place. Also, when glacier melts away, it no longer needs protection. In the Andes several years ago the World Bank gave US$200,000 for painting a mountain white to reduce local temperatures to enhance ice preservation and snow formation. In Pakistan some tribes have planted glaciers successfully in small scale. Numerous glaciers in high Arctic and Antarctic do not need protection.

I support wholly the argument that the scale of deployment is the biggest obstacles for successful and effective geoengineering, either the scale isn't large enough, or the effect isn't large enough to deliver satisfactory benefits - hence our best option remains decarbonisation and perhaps increasing forests where they can be increased to mop out some of the carbon from the air (but even here scales are not enough).

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From: geoengi...@googlegroups.com <geoengi...@googlegroups.com> on behalf of Renaud de RICHTER <renaud.d...@gmail.com>
Sent: 16 April 2021 18:43
To: geoengineering <geoengi...@googlegroups.com>
Subject: [geo] [SRM] Geotextiles could slow glacial melt, but at what cost?

 

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[Russell Seitz]

Unfortunately, even the lightest and brightest ground covering textiles weigh and cost too much to mitigate melting on a large scale 

Geotextiles durable enough to survive storm winds  weigh 5 to 10 tonnes  per hectare,  and cost dollars per M2,  un-installed .

Deploying them on flat land can triple the materials cost , and securing them on rocky slopes can run  up the installed cost  by an order of magnitude.

One way to constrain the cost of albedo management is research on how to  effectively  dematerialze it   Earth;s  hydrosphere has three times the area of its land surface, and besides being three orders of magnitude less  dense than geotextile polymers , the air in foams and hydrosols is <i> very </i> reasomably  priced.

[Russell Seitz]

This illustrates a central paradox of conservation economics: water tends to be too cheap to conserve relative to the mass of  costly materials needed to conserve it.

 With costs  upwards of a Euro per square meter  using  sturdy textiles to  save a hectare meter of ice on a sunny slope can rarely compete with  piping water in from cooler north slopes. As with Christo's wrapped buildings, the Swiss project is more a work of conceptual art than water conservation.