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Global warming puts Arabica coffee at risk, and we’re barrelling towards a crucial threshold

Coffee may be a major casualty of a hotter planet.

Even if currently declared commitments to reduce emissions are met, our new research suggests coffee production will still rapidly decline in countries accounting for 75 per cent of the world’s Arabica coffee supply.

Arabica coffee (Coffea arabica) is one of two main plant species we harvest coffee beans from. The plant evolved in the high-altitude tropics of Ethiopia, and is hypersensitive to changes in the climate.

Our research shows there are global warming thresholds beyond which Arabica coffee production plummets.

This isn’t just bad news for coffee lovers – coffee is a multibillion-dollar industry supporting millions of farmers, most in developing countries.

If we manage to keep global warming below 2 degrees Celsius this century, then producers responsible for most global Arabica supply will have more time to adapt.

If we don’t, we could see crashes in Arabica productivity, interruptions to supply, and price hikes on our daily cup.

Arabica and robusta are the two main species for coffee production. Photo: Getty

Where our coffee comes from

Most of Arabica crops are grown in the tropics, throughout Latin America, Central and East Africa, and parts of Asia.

Brazil, Colombia and Ethiopia are the world’s top three producers of Arabica, and the crop has crucial social and economic importance elsewhere, too.

Millions of farmers, mostly in the developing world, depend on productive Arabica plants for their livelihood.

If coffee productivity declines, the economic consequences for farmers, some of whom do not earn a living income as it is, are dire.

Arabica coffee is typically most productive in cool, high-elevation tropical areas with a local annual temperature of 18-23 degrees.

Higher temperatures and drier conditions invariably lead to declines in yield.

Last year, for example, one of the worst droughts in Brazil’s history caused the nation’s coffee production to drop by about one-third, with global coffee prices spiking as a result.

A variety of coffee at the mocha coffee fair in Yemen, the home of mocha coffee.

What we found

Previous research focused on how changes in temperature and rainfall affect coffee yields.

While important, temperature and rainfall aren’t the best indicators of global Arabica coffee productivity. Instead, we found that it’s more effective to measure how dry and hot the air is, which we can do using vapour pressure deficit.

Vapour pressure deficit tells us how much water gets sucked out of a plant.

Think of when you walk outside on a hot, dry day and your lips dry and crack – the moisture is being sucked out of you because outside, the vapour pressure deficit is high. It’s the same for plants.

We built scientific models based on climate data that was linked to decades of coffee productivity data across the most important Arabica-producing countries.

We found once vapour pressure deficit gets to a critical point, then Arabica coffee yields fall sharply.

Coffee crops have crucial social and economic importance. Photo: Market Lane

This critical point, we found, is 0.82 kilopascals (a unit of pressure, calculated from temperature and humidity).

After this point, Arabica yields start falling fast – a loss of about 400 kilograms per hectare, which is 50 per cent lower than the long-term global average.

Vapour pressure deficit thresholds have already been exceeded in Kenya, Mexico and Tanzania.

Unabated global warming will see the world’s coffee-producing powerhouses at risk.

If global warming temperatures increase from 2 degrees to 3 degrees, then Peru, Honduras, Venezuela, Ethiopia, Nicaragua, Colombia and Brazil – together accounting for 81 per cent of global supply – are much more likely to pass the vapour pressure deficit threshold.

What can we do about it?

There are ways farmers and the coffee industry can adapt, but the viability of applying these on a global scale is highly uncertain.

For example, irrigating coffee crops could be an option, but this costs money – money many coffee farmers in developing countries don’t have.

What’s more, it may not always be effective as high vapour pressure deficits can still inflict damage, even in well-watered conditions.

Another option could be switching to other coffee species. But again, this is fraught.

For example, robusta coffee (Coffea canephora) – the other main species of production coffee – is also sensitive to temperature rises.

Others, such as Coffea stenophylla and Coffea liberica could be tested, but their production viability at a large scale under climate change is unknown.

There is only so much adapting we can do. Our research provides further impetus, if we needed any, to cut net global greenhouse gas emissions.

Limiting global warming in accordance with the Paris Agreement is our best option to ensure we can all keep enjoying coffee.

More importantly, keeping global warming below 2 degrees is the best way to ensure the millions of vulnerable farmers who grow coffee globally have a livelihood that supports them and their families well into the future.

Jarrod Kath, senior lecturer in Ecology and Conservation, University of Southern Queensland

Scott Power, director, Centre for Applied Climate Sciences, University of Southern Queensland

This article is republished from The Conversation under a Creative Commons licence.

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