Systemic Uses of Water

No one argues with the understanding that agriculture, and increasingly aquaculture, which is farming that occurs in the water, are essential to supplying our food to sustain the world’s population. Farming is also the world’s largest industry, employing over one billion people and generating over one trillion dollars’ worth of food annually. Moreover, it is the most significant driver of habitat and biodiversity loss around the world.

Agricultural ecosystems provide essential habitats for many wild plant and animal species. This is especially the case for traditional farming areas that cultivate diverse species. However, rising demand for food and other agricultural products has seen the large-scale clearing of natural habitats to make room for intensive monocultures. Recent examples include the conversion of lowland rainforests in Indonesia to oil palm plantations, and of large areas of the Amazon rainforest and Brazilian savanna to soybean and cattle farms. This ongoing habitat loss threatens entire ecosystems as well as many species. Expanding palm oil plantations in Indonesia and Malaysia, for example, pose the most significant threats to endangered megafauna, including the Asian elephant, Sumatran rhinoceros, and tigers.

Aquaculture is also in direct competition with natural marine and freshwater habitats for space. For example, marine fish farms often need the shelter of bays and estuaries to avoid damage from storms and currents. Also, farmed fish need good water quality, frequent water exchange, and other optimal environmental conditions. However, these locations are also very often ideal for wild fish and other marine life. Some European fish farms have been placed in the migratory routes of wild salmon, while in Asia and Latin America, mangrove forests have been cleared to make space for shrimp farms.

Water resources are  impacted by modern agriculture. Globally, the agricultural sector consumes about 70 percent of the planet’s accessible freshwater and many big food producing countries like the US, China, India, Pakistan, Australia, and Spain have reached, or are close to reaching, their renewable water resource limits.

Wasted Water

The leading causes of wasteful and unsustainable water use are:

  • leaky irrigation systems
  • wasteful field application methods
  • cultivation of thirsty crops not suited to the environment.

Unsustainable water use can harm the environment by changing the water table and depleting groundwater supplies. Studies have also found that excessive irrigation can increase soil salinity and wash pollutants and sediment into rivers – causing damage to freshwater ecosystems and species as well as those further downstream, including coral reefs and coastal fish breeding grounds.

Soil carried off in rain or irrigation water can lead to sedimentation of rivers, lakes and coastal areas. The problem is exacerbated if there is no vegetation left along the banks of rivers and other watercourses to hold the soil. Sedimentation causes severe damage to freshwater and marine habitats, as well as the local communities that depend on these habitats. For example, people living in Xingu Indigenous Park in Brazil report declines in fish numbers. This trend is attributed to changes in the courses of waterways resulting from farming-related erosion and the silt deposition this causes. In Central America, plantation soil run-off ends up in the sea, where it affects the Meso-American Reef.

It is not just the eroded soil that is damaging: pesticides and fertilizers carried in rainwater, and irrigation runoff can pollute waterways and harm wildlife. The use of pesticides, fertilizers, and other agrochemicals has increased enormously since the 1950s. For example, the amount of pesticide sprayed on fields has increased 26-fold over the past 50 years.

These chemicals do not just stay in the fields they are applied to. Some application methods, such as pesticide spraying by airplane, lead to pollution of adjacent land, rivers or wetlands.  Pesticides often do not just kill the target pest. Beneficial insects in and around the fields can be poisoned or killed, as can other animals eating poisoned insects. Pesticides can also kill soil microorganisms. Also, some pesticides are suspected of disrupting the hormone messaging systems of wildlife and people, and many can remain in the environment for generations.

Unlike pesticides, fertilizers are not directly toxic. However, their presence in freshwater and marine areas alters the nutrient system, and in consequence the species composition of specific ecosystems. Their most dramatic effect is eutrophication, resulting in an explosive growth of algae due to excess nutrients. This depletes the water of dissolved oxygen, which in turn can kill fish and other aquatic life. In this video, Nancy Rabalais explains how farming practices around the Mississippi River, one of the largest rivers in the world affects water resources for fish, aquatic life, and the land surrounding the river. This in turn affects access to water and food for many families in the United States.

Food production is one of the primary causes of biodiversity loss through habitat degradation, overexploitation of species such as overfishing, pollution, and soil loss. Even though its environmental impacts are immense, the current food system is expected to expand rapidly to keep up with projected increases in population, wealth, and animal-protein consumption.

Sustainable Agriculture Movement

A growing movement has emerged during the past two decades to question the role of the agricultural establishment in promoting practices that contribute to these problems. Advocates argue that not only does sustainable agriculture address many environmental and social concerns, but it offers innovative and economically viable opportunities for growers, laborers, consumers, policymakers and many others in the entire food system.

The “food system” extends far beyond the farm and involves the interaction of individuals and institutions with contrasting and often competing goals including farmers, researchers, input suppliers, farmworkers, unions, farm advisors, processors, retailers, consumers, and policymakers. Relationships among these actors shift over time as new technologies spawn economic, social, and political changes.

Regarding food and agricultural policies, new federal, state, and local government policies are needed to simultaneously promote environmental health, economic profitability, and social and economic equity. For example, commodity and price support programs could be restructured to allow farmers to realize the full benefits of the productivity gains made possible through alternative practices.

Tax and credit policies could be modified to encourage a diverse and decentralized system of family farms rather than corporate concentration and absentee ownership. Government and land-grant university research policies could be modified to emphasize the development of sustainable alternatives. Marketing orders and cosmetic standards could be amended to encourage reduced pesticide use.  Unfortunately, as long as government subsidies are focused on corn, soybeans, wheat, cotton, and rice, it is difficult for farmers to diversify.  Subsidies could also increase consumer power, especially of low income families .If  fresh, green foods were of lower cost and more available, all families would have greater access to healthy diets.

Conversion of agricultural land to urban uses is a particular concern, as rapid growth and escalating land values threaten farming on prime soils. At the same time, the proximity of newly developed residential areas to farms is increasing the public demand for environmentally safe farming practices. Comprehensive new policies to protect prime soils and regulate development are needed, particularly in California’s Central Valley. By helping farmers to adopt practices that reduce chemical use and conserve scarce resources, sustainable agriculture research and education can play a crucial role in building public support for agricultural land preservation. Educating land use planners and decision- makers about sustainable agriculture is an urgent priority (University of California at Davis, 2022). This video provides an example of a dairy farm that is both sustainable and profitable.

Rural communities are often among the poorest locations in the nation. The reasons for the decline are complex, but changes in farm structure have played a significant role. Sustainable agriculture presents an opportunity to rethink the importance of family farms and rural communities. Economic development policies are needed that encourage more diversified agricultural production on family farms as a foundation for healthy economies in rural communities. In combination with other strategies, sustainable agriculture practices and policies can help foster community institutions that meet employment, educational, health, cultural and spiritual needs.

Consumers can play a role in creating a sustainable food system. Through their purchases, they send messages to producers, retailers, and others in the system about what they think is essential. Food cost and nutritional quality have always influenced consumer choices. The challenge now is to find strategies that broaden consumer perspectives, so that environmental quality, resource use, and social equity issues are also considered in shopping decisions.

References

Welcome | Sustainable Agriculture Research & Education Program, University of California, Davis, CA (2022).

Licenses and Attributions

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“Systemic Uses of Water” is adapted from “Environmental Impact of Agriculture” by R.Adam Dastrup, MA, GISPIntroduction to Human Geography is licensed under CC BY 4.0 Adaptation: edited for brevity and focus on family life in the United States; references added.

All Rights Reserved Content 

The “dead zone” of the Gulf of Mexico| Nancy Rabalais (c) TED. License Terms: Standard YouTube license.

Sustainable Farming (c) TechKNow. License Terms: Standard YouTube license.

 

 

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Contemporary Families: An Equity Lens 2e Copyright © 2020 by Elizabeth B. Pearce is licensed under a Creative Commons Attribution 4.0 International License, except where otherwise noted.

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