Commodity Profile: Coffee

In the second of a new series explaining how key commodities are affected by and contribute to climate change, Carbon Brief looks at coffee – from how it is grown in the world’s bean belt to where it is roasted, traded and consumed – with a special focus on Colombia and Ethiopia.

By Aruna Chandrasekhar,  Freya Graham and Giuliana Viglione

Design by Tom Prater and Tom Pearson

11 May 2023

Coffee is the most popular drink in many countries and the most widely traded tropical product in the world. The world produces almost 11m tonnes of coffee per year and consumes about the same.

The global coffee trade accounts for 2.5% of the world’s agricultural commodity trade by value – but less than 0.6% of its trade by weight.

In total, the global coffee trade is worth about $31bn per year. More than 60% of that value comes from the trade of green, or unroasted, coffee beans and nearly 40% is generated by the trading of roasted beans.

Several of the top importers of green coffee – such as the US, Germany and Italy – are also among the top exporters of roasted coffee beans.

Coffee is grown across wide swathes of the tropics, with the area bounded by the tropics of capricorn and cancer sometimes called “the bean belt” or “the coffee belt”. The two most important varieties are arabica and robusta.

Although it is grown in the tropics, coffee is most consumed in more northerly locales, with Finland, Norway and Iceland comprising the top three countries in terms of consumption per capita. The US is the largest coffee-consuming country by total volume.

Coffee is also an important crop for smallholder farmers around the globe. Around 60% of coffee worldwide is produced on farms covering less than five hectares.

The environmental footprint of coffee varies widely from country to country and from farm to farm. Some countries have a relatively large amount of coffee-related deforestation, while others have little. One 2020 review paper found that switching to sustainable coffee-growing could reduce the crop’s carbon footprint by more than 75%.

Coffee requires a delicate balance of temperature, water, sun, shade, nutrients and soil quality in order to thrive. Around the world, extreme weather events are already jeopardising coffee crops and driving up consumer costs. And these trends are anticipated to continue as the world continues to warm.

How is it grown?

History

The words “cappuccino” and “latte” might be ubiquitous now, but “coffee” itself is thought to originate from the Arabic qahwah, which etymologists connect to “wine”.

Another theory is that the word comes from the Kaffa region of Ethiopia, where the wild coffee plant (Coffea arabica) was first discovered in 850 AD. In Kaffa, coffee is called būno, borrowed from the Arabic or Amharic word for raw coffee, while qishr is the Arabic word for a drink made from coffee husks.

Coffee was being consumed as a beverage in Constantinople (now known as Istanbul) as early as 1475, after which it was introduced to Europe. The first reference to coffee as a drink probably came from the Dutch koffie, which is thought to have filtered down from the Turkish kahveh.

Mocha, now another name for chocolate-flavoured coffee, comes from the Red Sea port of Mocha, from where beans were first shipped to Europe by Venetian merchants in 1615.

The term “coffee shop” was officially recognised as an English phrase in 1838. The first coffee house in Mecca, however, dates back to the early 1500s and it was from Yemen that coffee spread to other parts of the Islamic world.

The coffee trade was thought to be zealously guarded, with stories of coffee beans being steeped before they were shipped to reduce their germinating power. Another rumour suggests that an Indian trader called Baba Budan “smuggled seven seeds of green coffee” from Mocha to Mysore in South India, although it is more likely that coffee arrived on the subcontinent much later, with the English.

By 1675, as coffee displaced beer as England’s main breakfast beverage, coffee houses became so popular that King Charles II issued a proclamation against them for being “hotbeds of sedition”. Later, colonialism made tea the cheaper drink of choice – although a tax on tea kept coffee popular in colonial America, especially in Boston.

The Dutch took the coffee plant to the Indonesian island of Java in about 1690 and the island has since become synonymous with coffee. From Java, the Dutch took a single coffee plant back to Amsterdam, where it was grown in the Amsterdam Botanical Garden.

An offspring of the plant was gifted to France’s Louis XIV and one of those plants was subsequently taken to the Dutch colony of Suriname in the Caribbean. The French brought their plant descendants to Martinique and Saint-Domingue, which marked its introduction and spread to the Americas, with its production reliant on African slave labour.

Climatic conditions

The so-called “bean belt”, which stretches across the equator between the tropics of cancer and capricorn, encompasses more than 40 coffee-growing countries.

Latin America produces more than 55% of the world’s coffee, with Brazil leading the way as the world’s largest coffee producer.

Other top coffee producers include Vietnam, Colombia, Indonesia and India. The International Coffee Organization (ICO) estimates that more than 10m tonnes of coffee were produced in the 2020-21 growing year, with around 125 million people depending on coffee for their livelihood.

While there are more than 100 species of coffee plant, the arabica and robusta varieties dominate the market. Arabica coffee accounts for 60% of global coffee production, and robusta coffee makes up the remaining 40%. Brazil, Colombia and Ethiopia are the world’s largest producers of arabica, while robusta’s top producers are Vietnam, Indonesia, Uganda and India.

The two varieties differ in taste and caffeine content – arabica tends to be sweeter and less-caffeinated, while robusta has a harsher taste and a higher amount of caffeine. They also require different growing conditions.

Arabica coffee typically grows best at higher elevations, with temperatures between 15-24C, and requires between 1,500-2,000 millimetres (mm) of water per year.

Robusta coffee is much more heat tolerant. The plant’s optimal growing temperatures are between 22-26C. It needs more water than arabica coffee – requiring around 2,000mm of water per year – and grows best at lower elevations, between 600-1300m above sea level. It also requires a shorter growing period in comparison to arabica.

Robusta coffee has a higher resistance to weather shocks and diseases and produces a higher yield per tree. Arabica is generally twice the price of robusta.

Liberica excelsa is another variety native to Central Africa that is assuming increasing importance because of its resistance to pests and heat.

Coffee plantations have a typical lifespan of about 30 years. Once planted, the plants take four to five years to bear their fruit, which are referred to as coffee cherries. After a labour-intensive harvest, farmers process coffee cherries using either the “wet” or “dry” method, the former reliant on water-intensive machinery and the latter used in water-scarce regions.

How and where is it consumed?

While most coffee production occurs in the global south, most coffee consumption takes place in the global north.

Approximately 2bn cups of coffee are consumed around the world every day, out of which 400m cups are drank by Americans alone. From October 2021 to September 2022, Europe consumed 3.3m tonnes of coffee, while North America consumed 1.9m tonnes.

Out of the top coffee-producing countries, Brazil consumes the most coffee – it drank 1.3m tonnes in the 2020-21 coffee year. Other coffee-exporting countries consume significantly less.

Explore the flows of the global coffee trade

More than 90% of coffee beans are exported as “green”, or unroasted, coffee. Usually, the final stages of the supply chain – when coffee beans are roasted and ground – take place in Europe and North America. The US imports most of its coffee from Brazil and Colombia, while Europe imports most of its coffee from Africa and Asia.

Once roasted and ground, coffee is brewed with hot water to create a caffeinated beverage. Other parts of the coffee plant are used in some cultures. The leaves are used as a medicine in Indigenous communities in Indonesia, while the cherry husks are used to make a traditional beverage known as cáscara.

Instant coffee – which is also known as soluble coffee – is a freeze-dried, powdered form of coffee that is easier to store and prepare than ground coffee. In 2021, instant coffee made up around 9% of the coffee trade – the highest share of total trade on record. Exports of instant coffee increased by 6% in 2021 compared to the previous year.

Coffee is a growing market, even with prices fluctuating over time. In February 2023, the average price of coffee was $1.72 per pound, but in 2018, the price of coffee dropped below $1 per pound, the lowest price point in 12 years.

This volatility is, in part, due to the fact that the crop is highly susceptible to changes in rainfall and temperature. Diseases such as coffee rust and pests such as the coffee berry borer can also disrupt the coffee supply chain. Labour shortages can also affect the availability and price of coffee.

Demand for coffee is growing. Between 2010 and 2018, global coffee production increased by 24%. According to Conservation International, coffee producers will have to triple their production to meet demand by 2050. The industry is valued at more than $200bn.

Exports of coffee from Asia and Oceania are on the rise – increasing by 13% last year. Vietnam, in particular, is seeing an increase in exports. Trade of robusta coffee is on the rise as a whole, increasing by 25% over 2020-21.

Case study: Ethiopia

Ethiopia’s south-western highlands are the birthplace of coffee and home to the wild arabica plant.

The carbon-dense montane forests, which are found at elevations between 1,000-2,000 metres above sea level, are host to some of the most prized coffee varieties and the world’s oldest coffee-growing regions: Oromia, Sidamo, Harar and Yirgacheffe. Streams that feed the coffee crop in Oromia’s Yayu Coffee Biosphere – a UNESCO heritage site – drain into the Baro river, a major tributary of the Nile.

Coffee’s stimulant properties are believed to have been discovered in Kaffa in Oromia by an Abyssinian shepherd named Kaldi, whose goats grew more alert after feasting on the plant’s leaves and berries.

Today, Ethiopia is the fifth-largest producer of raw coffee in the world. Its coffee industry employs nearly 20% of the country’s population and is the main source of its foreign revenue, with total exports valued at around $869m in 2020. Coffee contributes to the livelihoods of 15m smallholder farmers and others in the supply chain. Farmers with less than two hectares of land account for 95% of Ethiopia’s coffee production, while large-scale plantations – either state-owned or controlled by private investors – contribute just 5%.

Ethiopian coffee imports and exports

In 2020 Ethiopia imported 24.48kt & exports 244.7Mt of coffee

Source: resourcetrade.earth

Almost all of Ethiopia’s coffee exports – 96% – comprise unroasted, green, caffeinated beans, shipped to shores where the beans will be roasted and consumed or exported as specialty coffee.

More than half of the coffee grown in Ethiopia is consumed at home: the country is both Africa’s largest coffee producer and the continent’s largest consumer. Caffeine is embedded into the national cultural fabric. In traditional Ethiopian coffee-drinking ceremonies, beans are roasted in a thin pan over an open flame, ground into a paste and brewed in a clay pot called a jebena, along with a rue leaf. Drinking any less than three rounds of coffee – named Abol, Tona and Baraka (blessing) – is considered impolite.

The coffee that everyday Ethiopians drink is usually of a lower grade than the quality reserved for export – often ground from beans damaged by insects and moisture, or that are cracked.

Selling export-grade coffee locally has been a criminal offence under Ethiopian law since 2008. Coffee traders can face fines and up to five years of jail time if they sell to the domestic market.

Discontent against the law has been brewing, while an illegal trade flourishes to meet growing domestic demand.

There is also well-documented discontentment around the price Ethiopia receives for its coffee, whose price is set in Addis Ababa’s Ethiopia Commodities Exchange, but determined each business day on the commodity trading floor of the New York Board of Trade.

The “C” global benchmark price for coffee futures – contracts between buyers and sellers to exchange commodities at a later date – has little connection with climate impacts that Ethiopia’s farmers are facing today, which are pushing them further upland or forcing them to shift to other crops, union leaders tell Carbon Brief.

Ethiopians are paying a significantly higher price per cup, while growers stand to make a larger profit selling locally, given the expenses, paperwork and certification to cater to an international market.

“Ethical” certifiers, such as Fairtrade, have tried to shield farmers from price volatility by ensuring a minimum price and entering into set contracts. Others have called for a complete overhaul of the coffee system, where growers make a fraction of the cost of a cup.

The Ethiopian government, for instance, tried to use Intellectual Property Rights to differentiate the country’s varieties and get producers’ higher returns, leading to a high-profile dispute with the US National Coffee Association, of which coffee shop chain Starbucks is a leading member. The dispute and eventual agreement between Starbucks and the Ethiopian government drove popularity and prices up.

Coffee growing areas and protected areas in Ethiopia, Sudan and Kenya

UNESCO biosphere reserves and IUCN protected areas

Protected area

Coffee cultivation area

Source: The Impact of Climate Change on Indigenous Arabica Coffee (Coffea arabica): Predicting Future Trends and Identifying Priorities. Map: Carbon Brief

Ethiopian coffee is already being affected by climate change. A 2017 report by the Royal Botanic Gardens, Kew, warned that most existing growing areas will be negatively impacted by the turn of the century.

However, the report said, “substantial areas previously unsuitable for coffee” – especially higher altitude areas (above 2,000m) – will improve under future climates. It also said that “assisted migration to ‘new’ areas will be a key component for ensuring resilience in the Ethiopian coffee economy”.

Ethiopia has the world’s largest area under organic coffee cultivation, at nearly 183,000 hectares in 2021. This area has grown by half since 2010. However, in that same period, the country lost 288,000 hectares of tree cover, equivalent to emissions totalling 133m tonnes of CO2 equivalent (MtCO2e), according to Global Forest Watch. Of this, 83% was in the coffee states of Oromia and Southern Nations, Nationalities and Peoples regions, which account for nearly all of Ethiopia’s high forest cover.

Deforestation in Ethiopia has “been severe and persistent”, historically. Fuelwood collection has long been cited as the most important deforestation drivers in highland regions.

However, large-scale agriculture, development projects such as large hydroelectric dams, and government resettlement within forests have just as large an impact. Other threats to coffee and coffee-growers include coal mining, civil war and conflict within the state of Oromia.

Case study: Ethiopia (1/)

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Dejene Dadi, general manager of Oromia Coffee Farmers Cooperatives Union which represents 586,000 coffee growers

“Nowadays, farmers in Ethiopia see the effect of climate change with their own eyes because, in some areas, coffee is shifting up from lowland to high-altitude areas. Productivity is decreasing in Ethiopia in almost all geographies. There is overgrazing, because there is a shortage of rain in some areas and, because of overgrazing, the soil is eroded.

“Our union is meeting universities to source seedlings that are adapting to hot areas. We’ve planted many trees and we are starting cookstove distribution, because if communities minimise their wood-use, the coffee gets shelter and productivity and quality increase. We are in this struggle now.

“For one kilo of production – starting from the seedling, waiting three years, collecting, cleaning and then exporting – the maximum price we sell, even with all the certificates, is not more than $10. In America, maybe you pay $4 for a cup. For 1 kilo, you get about 100 cups. But we get only 2%. The price is not fair. It does not even cover farmers’ costs. They have another option: growing khat, which they can harvest five times a year and it is not time-consuming to manage. We are trying to educate farmers to not dismantle coffee and we’re struggling for sustainability, but the price is not fair.”

Dessalegn Jena, board chairman, Ethiopian Coffee Exporters Association

“Climate change affects the coffee value chain as a whole. Coffee producing farmers at the grassroot-level form 95% of total coffee production in Ethiopia and about 25% of the total population of the country. They are the most affected because they don’t have any option. But the others – processors and exporters – can do some other jobs. So now there is a strategy to adapt to climate change to rescue the farmers.

“When you talk of the sustainability of Ethiopian coffee, buyers are not playing an important role to rescue Ethiopian coffee. They must not only pay a decent price or the best price for coffee, but they have to support research centres to come up with varieties. They have to support government efforts and NGOs and unions.

“Everybody is responsible for making coffee sustainable. Not just farmers or producers, processors or exporters, but also buyers, roasters and end consumers. Everybody is responsible for climate change, everybody is contributing to it. And, so, everybody is invited to support the farmers. Otherwise we may lose Ethiopian coffee. It is the best coffee in the world and it is at risk – so pay attention.” ß

What impact does climate change have on coffee?

According to the Intergovernmental Panel on Climate Change (IPCC) sixth assessment report on climate change impacts, adaptation and vulnerability, perennial crops such as coffee are “particularly vulnerable” to impacts such as climate variability and pest emergence, as they are exposed year-round.

The report points out that farmers cannot adjust the planting of perennial crops to avoid climate extremes or pests, as they might be able to do for a crop that is planted annually.

The impacts of climate change on coffee are “mostly negative”, according to a 2019 review paper. For example, increasing temperatures and decreasing rainfall can negatively impact both the yield of beans and the quality of those beans.

Several studies have found that, given coffee’s sensitivity to climatic changes, many of the current areas used to grow the crop may become unsuitable as early as 2050.

One such study, published last year, finds that changes in climate – particularly increasing average annual temperatures – will drive major changes in the suitable growing regions of coffee in the world’s biggest coffee-producing countries. Under a moderate warming scenario, the researchers project that the world’s largest coffee producer, Brazil, could lose up to 80% of its best-suited coffee-growing land.

At the same time, areas at higher latitudes or higher altitudes may become suitable habitats for coffee-growing as the planet warms. But upslope land may not have deep or rich enough soil to support coffee plantations, or that land may already be in use for growing higher-demand crops or providing valuable ecosystem services, as the 2019 review paper points out. It states:

“Therefore, the feasibility of offsetting losses from areas with declining suitability by expansion or shifts to ‘new’ coffee-optimal areas needs additional investigation.”

Agroforestry – planting other trees among and between the coffee crops – has been shown to ameliorate the effects of increasing temperatures by providing shade for the fragile coffee beans. Agroforestry systems can also provide important carbon sinks. But, at the same time, these interspersed crops can compete with coffee trees for water in times of drought, leading the IPCC to conclude that “balancing the synergies and trade-offs…is necessary based on local context”.

The emergence and spread of pests and crop disease is another major concern for growers in a warmer world.

The fungus Hemileia vastatrix, which causes coffee rust disease, was first reported in eastern Africa in the 1860s. It rose to prominence in Sri Lanka in 1869, when it destroyed much of the island’s crop and devastated its coffee industry. Since then, it has spread across the world and is now endemic in every coffee-producing country. One 2017 study called it “one of the most well-known diseases in the history of plant pathology”.

There is conflicting evidence about the impact of climate change on the spread of coffee rust. One 2015 paper found that epidemics in the early 2010s in Central America and Colombia “were enhanced by weather conditions consistent with climate change”, while a 2016 study found “no evidence for an overall trend in disease risk in coffee-growing regions of Colombia from 1990 to 2015” and, therefore, “reject[s] the climate change hypothesis” as an explanation for the spread of the fungus.

The influence of climate change on the coffee berry borer, a small beetle that causes more than $500m in damages to coffee crops annually, is more clear cut. A 2015 study found that:

“The rise in temperatures and infestation of coffee berry borers may already be affecting Ethiopian coffee crops.”

It noted that while surveys of the country’s coffee growers in 1967 “did not show any evidence of coffee berry borers”, the beetles were widespread in the south-western part of the country by 2003.

A 2009 study that carried out physiological experiments on the coffee borer found that the optimal reproductive temperature for the beetle is between 25-27C, with the pests able to survive temperatures ranging from 15-32C. It stated that increasing temperatures in places where average daily temperatures are below 26.7C “may profoundly influence the pest population dynamics”. It added that the increased dispersal of the insect “could have devastating effects in coffee growing areas” with rainfall throughout the year, such as Colombia.

Case study: Colombia

Colombia is the world’s fourth-largest coffee producer. In 2020, the country produced more than 13m 60kg bags of Arabica coffee – accounting for 17% of Colombia’s agricultural production. Almost half of Colombia’s coffee is exported to the US, with its total coffee exports valued at $2.54bn in 2020.

Coffee is the main source of income for two million Colombians, the majority of whom are smallholder farmers. Around 95% of coffee farms in the country occupy less than 12 hectares. The total land cultivated for coffee currently covers around 900,000 hectares. Since 1990, land cultivated for coffee has decreased by 20%.

Colombian coffee imports and exports

in 2020 Colombia imported 64.82Mt & exported 727.6Mt of coffee

Source: resourcetrade.earth

Colombia is home to a diverse variety of ecosystems. Coffee is grown both at low altitudes, in the north of the country, and at higher elevations in the Andes in the south. According to a report by the International Centre for Tropical Agriculture, altitude migration of coffee farms has already occurred in some regions, as farmers seek milder growing conditions amid increasing hot spells.

The livelihoods of more than 300,000 Colombian coffee farmers are increasingly threatened by weather events. According to the IPCC, warming and drier conditions are projected to rise and heatwaves will increase in frequency and severity, while the country is particularly susceptible to droughts and floods. Rising temperatures threaten glaciers in the Andean region, which would likely lead to water shortages.

By 2050, climate change will likely impact 3.5 million Colombians and threaten 14% of its agricultural GDP, research suggests. If no adaptation measures are taken, 80% of areas under agricultural cultivation will be impacted.

There is already evidence of changing weather patterns in Colombia. In the coffee-growing mountainous regions, temperatures have been increasing at a rate of 0.3C per decade. The frequency of hot days and hot nights has increased since 1960, as has the magnitude of extreme rainfall. Populations living in the Andes and along the coastline are particularly vulnerable to increases in extreme weather events.

Coffee growing areas and protected areas in Colombia

Coffee cultural landscape of Colombia areas

Protected area

Coffee cultivation area

Source: UNESCO. Map: Carbon Brief. © Mapbox © OpenStreetMap

Colombia is susceptible to the effects of El Niño and La Niña. In 2016, El Niño caused droughts across Colombia, which damaged coffee crops. In 2012, excessive rainfall caused by La Niña led to a record-low coffee yield of 462,000 tonnes of coffee.

In December 2020, Colombia submitted an updated climate pledge under the Paris Agreement, in which it set a goal to reduce CO2 emissions by 51% by 2030. In the same year, the Colombian government set out plans to invest more than 16bn pesos (£2.7m) in renewable energy. The country also receives a significant amount of climate finance from the Green Climate Fund – $275m. Of this, nearly $100m is earmarked for programmes aimed at “prioritised agricultural production”, including coffee.

As well as changing weather patterns, reliance on fertilisers such as nitrogen and phosphorus has impacted Colombian coffee production. Russia’s invasion of Ukraine caused fertiliser prices to double for Colombian farmers.

Case study: Colombia (1/)

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Diana Carolina Meza Sepulveda, researcher at the Technological University of Pereira and co-director of non-profit social project Clima y Café

“The farmers know that climate change exists and they know some strategies to adapt to it – for example, managing water or using different varieties of coffee. But the way to adapt to climate change depends on the context, because we have a lot of variety in Colombia. You can have a farmer from 6,000 feet above sea level and you have other farmers at much lower altitudes. There’s not just one way to adapt.

“We have this big institution in Colombia, the National Federation of Coffee (Federación Nacional de Cafeteros). These guys are very, very useful to the farmers and all the farmers believe in them. We’ve had 100 years with this institution and this is the way to transfer information [about climate change] to the farmers.

“It’s necessary to change the way [we] think about coffee. Farmers can have different products – while continuing with coffee, because it’s something cultural – but farmers need to have different options. You need to diversify.”

Dr Christian Bunn, associate scientist, International Center for Tropical Agriculture (CIAT) and CGIAR

“In the coffee sector, altitude is linked to price, price premiums and quality differentials. People need the premium to survive.

“You need improved varieties, drought-resistant varieties. Farmers can’t do that without support. Breeding centres need to change their priorities and think about what farmers will need in 30 years.

“What fascinates me about coffee is that you have a north-south value chain. And, for climate action, it’s important to understand that we have planetary needs and we have people’s needs. So there is a conflict of interest within the value chain. Coffee as advertised shows an intact, beautiful landscape with a happy producer, on horseback…that’s what consumers want. They want this Paradise Lost thing, but that’s not reality. The reality is poverty, it’s conflict. People want to get out of that reality, while you want to have a carbon neutral coffee in your SUV. That’s the contrast.”

“In Colombia, expansion to higher altitudes does not necessarily mean deforestation. You can expand coffee production to degraded landscapes, or landscapes that already are already under agricultural management.”

Dr Alvaro Gaitan Bustamante, director of science and technology research at Cenicafé, National Federation of Colombian Coffee Growers’

“We had a really terrible time in 2008, 2009 and 2010 because of La Niña three years in a row, which meant plants were receiving less sun because we had a lot of clouds and a lot of rain. The coffee plantations were really old, the price of fertilisers was through the roof and we had a lot of areas planted with coffee rust-susceptible plants – the worst disease that happens to coffee. It was the perfect storm…And it was a huge social problem.

“We started to work on adaptation. We went from 25% of the coffee area with rust-resistant varieties to 85% today. And we implemented a national, nationwide automatic weather information system.

“Every month, we release a bulletin for farmers that tells them what is happening with the weather and make recommendations, so they can start to adapt their plantations before the big weather changes come. This time, we were ready for La Niña.

“Research is something that is required for coffee to survive, but, in many places, coffee is an orphan crop. It takes about 25 years to develop a new variety. Today, what we have in our experimental fields varieties we’re going to release 20 or 15 years from now.”

What impacts does coffee have on the climate and environment?

Coffee has a significant climate footprint, which depends on how and where it’s grown, packaged, transported, brewed and consumed – and how much of it is wasted throughout the supply chain.

Of all these phases, coffee-growing is the most greenhouse-gas-intensive phase of its lifecycle, accounting for 40-80% of its total emissions.

Coffee grown in monoculture plantations exposed to the sun, reliant on irrigation and energy (for fertilisers, pesticides and operating machinery) has a very different footprint from coffee grown under shade in biodiverse, water-rich, complex agroforests.

According to a 2008 assessment by Tchibo, the world’s fourth-largest coffee-producing company, cultivation and on-farm processing account for over half the carbon footprint of coffee production, with 30% owed to consumption, and the rest from transport, processing and waste disposal.

One 2020 review paper estimated the average carbon footprint of Arabica coffee from Brazil and Vietnam exported to the UK as ranging between 15.33kg of CO2e for every kilogram of green coffee produced conventionally to as little as 3.51kgCO2e per kilogram of coffee grown sustainably. These differences are due to the method of transportation – by air versus by cargo ship – and the use of fossil fuel-derived fertilisers in conventional coffee production.

Coffee is also a beverage of convenience: many of its lifecycle emissions depend on how coffee is brewed and consumed.

Lattes have a higher footprint than espressos, even if the coffee was grown sustainably, owing to the additional greenhouse gas footprint of milk. Heating water on a gas stove has a higher climate cost than using an electric kettle. And using more coffee than is necessary – even if coffee grounds are composted – increases waste.

A recent analysis published in the Conversation by researchers at the University of Quebec outlines that at the consumer level, “avoiding wasting coffee and water is the most-effective way to reduce the carbon footprint of traditional, brewed and soluble coffees”.

Their analysis, for instance, shows that pod-capsules – which are often criticised for their reliance on single-use packaging – actually minimise coffee and water wastage and, thus, have a lower carbon footprint than traditional filter coffee. However, the researchers also warn that the convenience of making coffee this way might spur coffee drinkers to consume more of it.

Coffee also has a significant water footprint: one study from theUNESCO-IHE Institute for Water Education estimated that a single standard-sized (125 millilitre) cup made from seven grams of coffee needs about 130 litres of water. For comparison, a cup of tea, made from three grams of black tea, has a water footprint of 27 litres per cup.

One 2006 study estimated that the production of 1,000kg of green coffee in Brazil requires nearly 11,400kg of water, 94kg of diesel, 900kg of total fertilisers, 620kg of correctives such as lime (which is used to balance soil pH after fertiliser application), 10kg of pesticides and 0.05 hectares of annual land use.

Since the carbon and environmental footprint of coffee is so variable, consumer choices can have a major effect on its emissions. Other emissions-mitigation measures include shifting growing choices and technology transfer to allow producing countries to roast domestically.

While coffees described as fairtrade, organic and eco-friendly occupy a niche market, that market is expanding. Advocates say it can offer benefits for millions of small-scale farmers, ecosystems and the entire industry – but such certifications cannot “single-handedly” alleviate poverty.

Explore the flows of the global coffee trade

United States total coffee imports and exports

Trade flows greater than 1kt of coffee / year

Filter coffee type/country:

Total Roasted Unroasted

No trade in total coffee

Top Importers (kt of coffee)

Top Exporters (kt of coffee)

Source: Chatham House