Breathe in the fresh air. Welcome back to the farm! Farming is critical to any civilization—it's the best method humans have yet found to feed and maintain large populations. But the reality is that farming has some unintended consequences as well, especially on our climate. In fact, agriculture is one of the primary causes of climate change. That doesn't change the fact that we have to keep people fed. So is there a way to balance our agricultural needs with our climate concerns? Let's find out.
Millions of flashcards designed to help you ace your studies
Sign up for freeWhich greenhouse gas is most associated with large-scale cattle farms?
Which greenhouse gas is most associated with flooding rice paddies?
Which greenhouse gas is most associated with some fertilizers used for crop-based farming?
Approximately what percent of global greenhouse emissions are directly related to agriculture?
Which of the following is NOT a form of sustainable agriculture?
This product has a particularly large impact on the climate relative to other types of meat.
Which greenhouse gas is most associated with large-scale cattle farms?
Which greenhouse gas is most associated with flooding rice paddies?
Which greenhouse gas is most associated with some fertilizers used for crop-based farming?
Approximately what percent of global greenhouse emissions are directly related to agriculture?
Which of the following is NOT a form of sustainable agriculture?
This product has a particularly large impact on the climate relative to other types of meat.
Achieve better grades quicker with Premium
Geld-zurück-Garantie, wenn du durch die Prüfung fällst
Review generated flashcards
Start learning or create your own AI flashcards
Team Agriculture and Climate Teachers
When agriculture first emerged, its impact on the environment was negligible. However, as demand for food increased and agricultural methods became more complex, agriculture began to have a noticeable effect on local environments.
For example, overuse of land can lead to soil degradation and erosion. An abundance of animal feces can cause contamination. Pesticides and fertilizers can be particularly harmful sources of pollution and can degrade local air and water. Crop-based agriculture can put a strain on aquatic resources and can even cause local water sources to dry up if not managed properly.
Atrazine, a common herbicide used in farming, frequently contaminates drinking water in the United States. Contact with atrazine has caused some frogs to develop hermaphroditic characteristics.
Even a relatively "eco-friendly" form of livestock agriculture, pastoral nomadism, can cause long-term degradation of pastures and conflicts with wild animals. Similarly, traditional slash and burn agriculture is starting to outpace the rate at which forests can regenerate.
While local pollution can be harmful, some of the overarching methods used in agriculture can significantly affect our global climate. In fact, agricultural activity is one of the leading causes of anthropogenic climate change—the unintentional alteration of the planetary climate caused by human activity.
The Earth's climate has changed many times in the past four billion years due to a multitude of causes.
However, modern climate change is human-made. Within our atmosphere, gases like carbon dioxide, nitrous oxide, methane, and water vapor trap solar heat and warm the planet, acting almost like the glass panels on a greenhouse. This process is called the greenhouse effect, and the gases are collectively called greenhouse gases.
Human activity has inadvertently added more greenhouse gases to the atmosphere, exacerbating the greenhouse effect.
It's not all cut-and-dried: growing some tomatoes in your backyard will not have any relationship to climate change. Rather, the reason agriculture has such a big impact on the climate is because of the processes farmers have to undertake to make large-scale agriculture feasible.
To create space for more crops, farmers may need to cut down part or all of a forest. As you know, trees love to breathe in carbon dioxide; deforestation releases carbon they were storing, and with fewer trees, less carbon can be sequestered away from the atmosphere.
Industrial-scale crop-based agriculture requires the use of large, fossil-fuel-powered machinery, like tractors and combines, which release greenhouse gases. Similarly, transporting food from the farm also causes greenhouse gas emissions, especially if it is being exported to a country on the other side of the planet.
Massive herds of cattle, such as those found in industrial livestock farms, can actually generate substantial amounts of methane through their belching and flatulence. Similarly, the traditional method of growing rice—flooding to create rice paddies—attracts large quantities of microbes that release huge amounts of methane. Some fertilizers also release nitrous oxide.
Fig. 1 - Industrial cattle farming can generate profound amounts of methane
Ultimately, even placing transportation in a separate category, agriculture and forestry account for around 11% of all greenhouse gas emissions in the United States. Globally, agriculture and forestry account for around 24 to 30% of all greenhouse gas emissions.
The leading cause of climate change is burning fossil fuels like gas, oil, and coal. Burning fossil fuels accounts for around 75% of all greenhouse gas emissions.
As the Earth warms due to climate change, agriculture will become more difficult. As agriculture becomes more difficult, more intensive agricultural methods will need to be applied to farms to get the same agricultural output, which will cause even more greenhouse gas emissions, leading to further global warming. It's a seemingly endless positive feedback loop.
Fig. 2 - Farms may become less productive due to climate change
Besides average higher temperatures (with which some crops and livestock may not be able to cope), climate change is also causing extreme weather events to become more common. Crops are not immune to wildfires or hurricanes, but droughts are particularly pertinent to agriculture. Farmers in many agricultural regions that have just enough water to support their plants and animals will find themselves unable to maintain their farms without sacrificing their water supplies. Similarly, a general lack of water may cause soil erosion to occur more quickly, leading to desertification, the process by which worn-out soil becomes more desert-like. A significant decline in agricultural production can lead to starvation in some areas.
It's all well and good to identify all of the environmental problems created by agriculture, but the frank truth is, we need agriculture and farming. Unless you get all your food from hunting and gathering, you likely benefit greatly from our agricultural systems. Chances are, just about everything you've eaten today originally came from a farm or garden. Even the saltiest, greasiest French fries began life as potatoes, and the sweetest milk chocolate bar used to be a cacao bean. Indeed, the rise of agriculture is also tied to the rise of civilization; in a way, the invention of farming ultimately led to the creation of the technology you're using to read this article right now (check out our explanation on Agricultural Hearths for more information!).
Agriculture enables us to produce enough food to support an ever-increasing population. At this point in history, a widespread return to hunting and gathering is neither realistic nor feasible. So how do we adapt our agriculture to both meet the needs of our ever-expanding population and reduce environmental impacts?
There are three major approaches to agricultural climate adaptation: sustainable agriculture, biotechnology, and changing diets.
Sustainable agriculture is an approach to agriculture that involves modifying the techniques we already have in place to make them less impactful on the environment. In other words, the goal is to make our farming practices more feasible long-term. Farmers can use sustainable principles to get the most out of their resources while decreasing their environmental impact—usually a win-win.
There are dozens of different sustainable farming methods, including but not limited to:
Rotational grazing
Crop rotation
Cover crops
Vertical farming
Multicropping
Crop rotation is an agricultural practice in which different crops are planted on the same plot of land throughout the year. Crop rotation adds new nutrients to the soil and can decrease or eliminate pests and weeds, as they will have less chance to take root. Crop rotation, then, reduces the need for pesticides, herbicides, and fertilizers, which reduces pollution and nitrous oxide emissions.
Another way to adapt to a changing climate is to develop plants and animals that are hardier and more resilient. Enter genetically modified organisms (GMOs). Strictly speaking, the very process of domesticating wild plants and animals for use in human agriculture was a form of genetic modification, and modern GMOs continue that tradition. However, genetic modification these days differs from selective breeding in that DNA composition can be changed directly in laboratories using biotechnological processes. This makes GMOs controversial, as they seem to do away with natural processes altogether, the possible consequences of which are not yet fully known. "Organic" has recently become a buzzword in supermarkets to advertise produce that is not genetically modified.
Fig. 3 - Organic produce has gained popularity in response to skepticism about GMOs
Similarly, biotechnologists have begun cultivating lab-grown meat. This artificial meat is significantly less environmentally demanding than livestock agriculture but faces the same skepticism as GMOs.
Incorporating lab-grown meat into your diet might seem gross, but the simple act of reducing beef consumption, in general, may have a positive effect on the environment. If demand for beef decreases, herds may become smaller, as will their methane output. Chicken and pork both have a smaller impact on the climate than beef, though meat overall can be more environmentally demanding than produce.
Entomophagy, the consumption of insects, has been suggested as an alternative to our current diets. The very notion may seem unappealing to some, but insects are an extremely efficient source of protein. They are cheaper to farm, have a smaller environmental impact, and can provide more protein per gram than other forms of meat.
A hidden cause of agriculture-related climate change is food waste. In the United States, over $150 billion worth of food is wasted and thrown away each year. Overbuying (and wasting) food is an unwitting signal to the agricultural industry and governments that they need to produce more and more food to meet demands.
Sign up for free to gain access to all our flashcards.
How does agriculture affect climate?
Agriculture can negatively affect climate by contributing to environmental degradation and climate change.
Does agriculture play a role in climate change?
Agriculture plays a substantial role in climate change. Some herds, crops, and fertilizers can generate substantial amounts of methane and nitrous oxide, and agriculture is also a major cause of deforestation and used long-distance transportation, which involves burning fossil fuels.
How much does agriculture affect climate change?
Agricultural practices cause around 24-30% of global greenhouse gas emissions, contributing to anthropogenic climate change.
How can we reduce climate change in agriculture?
We can reduce climate change in agriculture by practicing sustainable agriculture, modifying our diets, and/or investing in biotechnology.
What's the biggest contributor to climate change?
Burning fossil fuels like gas, oil, and coal is the biggest contributor to climate change.
At StudySmarter, we have created a learning platform that serves millions of students. Meet the people who work hard to deliver fact based content as well as making sure it is verified.
Lily Hulatt is a Digital Content Specialist with over three years of experience in content strategy and curriculum design. She gained her PhD in English Literature from Durham University in 2022, taught in Durham University’s English Studies Department, and has contributed to a number of publications. Lily specialises in English Literature, English Language, History, and Philosophy.
Get to know Lily
Gabriel Freitas is an AI Engineer with a solid experience in software development, machine learning algorithms, and generative AI, including large language models’ (LLMs) applications. Graduated in Electrical Engineering at the University of São Paulo, he is currently pursuing an MSc in Computer Engineering at the University of Campinas, specializing in machine learning topics. Gabriel has a strong background in software engineering and has worked on projects involving computer vision, embedded AI, and LLM applications.
Get to know Gabriel