Cagle Amie, Author at I-Water-O https://www.iowater.net/author/amie-cagle/ About Protecting Iowa's and America's Waters Mon, 13 May 2024 08:06:45 +0000 en-US hourly 1 https://wordpress.org/?v=6.2.2 https://www.iowater.net/wp-content/uploads/2023/08/cropped-graphic-gab9cdfcbc_640-32x32.png Cagle Amie, Author at I-Water-O https://www.iowater.net/author/amie-cagle/ 32 32 Water Management Strategies: Towards Sustainable Solutions for Global Challenges https://www.iowater.net/water-management-strategies-towards-sustainable-solutions-for-global-challenges/ Mon, 13 May 2024 08:06:45 +0000 https://www.iowater.net/?p=106 Smart water usage is critically important in the modern world, where increasing demand for freshwater presents serious challenges. The rapid increase in freshwater withdrawal for agricultural regions and other industrial sectors has led to conflicts over water resources both within and between countries. For instance, agriculture, which consumes up to 70% of freshwater globally, requires […]

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Smart water usage is critically important in the modern world, where increasing demand for freshwater presents serious challenges. The rapid increase in freshwater withdrawal for agricultural regions and other industrial sectors has led to conflicts over water resources both within and between countries.

For instance, agriculture, which consumes up to 70% of freshwater globally, requires technological innovations in irrigation systems to reduce water usage. The adoption of drip irrigation systems could be an effective solution in this regard.

Additionally, initiatives for managing water consumption in urban areas, such as wastewater treatment and rainwater harvesting systems, need to be considered. This can help mitigate the negative impact on water resources and ensure sustainable water supply for urban populations.

Public education on the importance of water conservation and efficient water use is also an integral part of water resource management strategy. The more people are aware of their role in water conservation, the more opportunities for positive change arise.

International cooperation also plays a key role in effective water resource management. Collaborative efforts between countries can help prevent conflicts over water resources and ensure equal access to water for all stakeholders.

Overall, only a comprehensive approach that considers the needs of people, economic, environmental, and political aspects can lead to effective water resource management and ensure sustainable water supply for future generations.

It is important to remember that addressing the issue of access to freshwater requires a comprehensive approach that takes into account the needs of people, agriculture, ecology, and political aspects.

Effective use of irrigation systems: Further research and implementation of advanced technologies in agriculture can help reduce water usage and make its utilization more efficient.

Urban water consumption: Water management in urban areas is also critically important. Initiatives for efficient water use, wastewater treatment, and rainwater storage can help mitigate the negative impact on water resources.

Education and awareness: Educating the public about the importance of water conservation and efficient use can contribute to a change in approach to this issue. The more people realize their role in water conservation, the more chances for positive changes.

International cooperation: At the international level, cooperation between countries for effective management of shared water resources can help prevent conflicts and ensure equal access to water for all stakeholders.

Innovations in water purification and usage: Investing in research on new water purification methods and the use of renewable water sources, such as water plants and treatment facilities, can help ensure access to clean water in cases of scarcity.

These ideas can contribute to the creation of a more resilient and efficient water resource management system.

Language translations can play an important role in addressing issues related to smart water usage by facilitating effective communication between different countries, languages, and cultures. Here are a few ways translation bureaus can be used to facilitate communication:

Document and material translation: Translation bureaus https://translation.center/ukrainian-translators can translate national and international legislative acts, scientific research, advertising materials, and other important documents related to water resources and their management.

Websites and internet resources: Translating websites and other internet resources https://translation.center/notarized-translation allows for the dissemination of information about water conservation strategies, water resource management technologies, and other important aspects of this issue among different languages and countries.

Translation of conferences and meetings: Translation bureaus can provide synchronous or consecutive translation services at international conferences, seminars, and meetings aimed at exchanging experiences and developing water resource management strategies.

Translation of informational materials for the public: Informational materials about the importance of water conservation and efficient use of its resources can be translated into various languages for wide dissemination among the public.

Translation of technical documentation and instructions: Technical documentation, instructions for the effective use of water purification and storage equipment can be translated for foreign specialists and technical professionals.

Overall, translation bureaus play a vital role in ensuring effective communication between different countries and cultures to develop and implement water resource management strategies.

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Water quality protection projects in Iowa https://www.iowater.net/water-quality-protection-projects-in-iowa/ Sun, 04 Jun 2023 09:20:00 +0000 https://www.iowater.net/?p=51 Water quality protection projects protect the state's surface and groundwater resources from point and nonpoint sources of pollution.

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Water quality protection projects protect the state’s surface and groundwater resources from point and nonpoint sources of pollution. Authorized in Iowa Code Chapter 161C, projects are developed through a local process initiated by soil and water conservation districts, coordinating the resources and programs of a variety of organizations to achieve local goals. Project applications take into account the importance of the resource to be protected, the nature and extent of the water quality concerns, the proposed solutions, landowner interest, and the overall cost-effectiveness of the project.

Water quality protection projects typically use a watershed approach to address water quality issues. this approach involves evaluating all possible sources that may affect water quality in the project area. It provides the most comprehensive, efficient and effective way to achieve soil and water quality protection goals. Successful projects typically have a high level of community support and include strong public outreach and education programs. They also have partnerships with federal, state, and local agencies and organizations.

These projects have effectively improved water quality in watersheds over public lakes, trout streams, widely used recreational areas, drinking water sources, urban developments, and aquifer recharge areas. Practices commonly used in the projects include permanent soil and water conservation techniques (terraces, basins, etc.), temporary management techniques (no-till, nutrient management, etc.), and urban erosion and stormwater management techniques (silt fences, bioswales, etc.).

Funding for projects is provided through the Resource Enhancement and Protection Program (REAP) and the Watershed Protection Fund with additional funding available through the Iowa Department of Natural Resources from the U.S. Environmental Protection Agency.

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Iowa Water Source Protection Program https://www.iowater.net/iowa-water-source-protection-program/ Mon, 22 May 2023 09:16:00 +0000 https://www.iowater.net/?p=48 The term "source water" is used to define drinking water in its original environment, either as surface water (rivers, streams, reservoirs, lakes) or groundwater (aquifers)

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The term “source water” is used to define drinking water in its original environment, either as surface water (rivers, streams, reservoirs, lakes) or groundwater (aquifers), before it is abstracted, treated and distributed by a water supply system. Source water protection (SWP) is the action of preventing contaminants from entering public drinking water sources.

Source water quality can be affected by both natural and human activities. The concept of source water protection (SWP) is to manage the areas through which water flows and the activities that take place on the land to protect the quality of the resource. These protection efforts save the community money through improved water quality that requires less treatment, a longer well life cycle, and less likelihood of having to find an alternative source or replace a well due to contamination.

Surface water is more susceptible to contamination incidents due to natural or man-made causes, such as flooding or chemical spills, but it also recovers much faster than groundwater. Groundwater is much less susceptible to contamination, but when it does occur, natural recovery is very slow. Water source protection includes both groundwater (wellhead) protection and surface water protection.

Iowa DNR’s SWP program is a voluntary program, although there are many benefits to a water system for protecting its water supply. There are three components to the Source Water Protection Program.

Phase 1 Assessment: The DNR provides an initial water source assessment, called a Phase 1 Assessment, for all public water systems in Iowa. This assessment details the water system’s existing wells, delineates water source protection zones, lists contaminant sensitivity classifications, and provides known potential sources of contamination.
Source Water Protection Plan: In the second step, the system develops its SWP plan with the help of a local team.
These plans are sometimes called Phase 2 plans. The components are listed in a template plan that is used to guide the team through the process to determine how the system will protect its drinking water resources.
Implementation: In the third phase, the SWP plan is implemented, addressing the specific elements that the community and system will use to protect their drinking water resources.

Developing a good SWP plan does not require the help or involvement of an engineer or consultant. The system may wish to contact an outside organization for assistance. The Iowa Conservation Districts and the Iowa Rural Water Association provide experienced water source consultation and assistance for developing a SWP plan, at no cost to the public water system.

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Water quality and protection https://www.iowater.net/water-quality-and-protection/ Sat, 25 Feb 2023 09:12:00 +0000 https://www.iowater.net/?p=45 The quality of water and drinking water in the country has improved over the past 50 years, but challenges remain.

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The quality of water and drinking water in the country has improved over the past 50 years, but challenges remain.

Safe and clean water is essential for human and environmental health and the economic well-being of the nation. Over the past 50 years, the quality of water and drinking water in the country has improved, but threats to water quality and safety remain. For example, the Environmental Protection Agency (EPA) and states have identified nearly 70,000 water bodies across the country that do not meet water quality standards. Additionally, the discovery of toxins in our communities, such as elevated lead levels in drinking water in Flint, Michigan in 2015 and new contaminants near military bases such as per- and polyfluoroalkyl substances (PFAS), has renewed awareness of the risks that other chemical compounds pose to public health.

Ensuring safe drinking water

Under the Safe Drinking Water Act (SDWA), EPA sets legally binding standards that limit the levels of certain contaminants in drinking water. The EPA identifies unregulated contaminants, monitors them, and determines whether they need to be regulated based on factors such as how dangerous they are to public health and how often they occur. To date, the agency has issued standards for about 90 pollutants. However, the EPA could more effectively collect data on unregulated pollutants to determine whether they need to be regulated. In addition, public water systems must comply with monitoring, reporting, and other requirements set by the EPA and the responsible states. However, the data that states provide to EPA does not always reflect the frequency of health-related violations and monitoring by public water systems or the status of enforcement actions.

Additionally, the Lead and Copper Rule requires water systems to test for lead and treat the water to prevent leaching of lead from corroded pipes. The 68,000 water systems that serve most U.S. residents are subject to this rule and must be tested in high-risk areas near lead pipes. However, the locations of many lead pipes are unknown. The EPA should collect data on lead pipes to improve enforcement of the rule. Lead in school drinking water is also a concern because it is the daily water source for more than 50 million children. EPA and the Department of Education should promote lead testing and improve guidance for school districts and child care facilities.

Under the SDWA, EPA is also responsible for protecting underground drinking water sources from contamination. This is done through the Underground Injection Control (UIC) program, which regulates the injection of wastewater into underground wells. However, EPA has not collected specific verification, complete and consistent enforcement information, or ongoing surveillance to assess whether state-managed and EPA-administered UIC programs for oil and gas wastewater disposal wells are protecting groundwater sources.

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Water protection in the USA https://www.iowater.net/water-protection-in-the-usa/ Wed, 07 Dec 2022 09:10:00 +0000 https://www.iowater.net/?p=42 An example of how one central government agency successfully performs the functions of environmental control over the use and protection of all natural resources (including water and land)

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An example of how one central government agency successfully performs the functions of environmental control over the use and protection of all natural resources (including water and land) can be observed in the United States. The U.S. Environmental Protection Agency (U.S. EPA), a federal executive body, carries out a full range of control functions to ensure compliance with federal environmental laws in various areas of natural resource use (water, land, air, etc.). The Agency sets national standards for various environmental protection programs. If the standards are not met, the Agency may impose sanctions (termination of the violator’s activities, fines, legal action, etc.).
The Agency delegates to the states and Indian tribes the authority to issue various permits and to monitor compliance with and enforcement of environmental laws.

The Agency includes the Office of Enforcement and Compliance, which directly monitors compliance with federal environmental laws by federal and state agencies, corporations, and individuals. On the ground, enforcement functions are carried out by 10 divisions of the Agency, each covering several states. State environmental authorities monitor compliance with state environmental laws.

The application of environmental legislation in the field of water resources is carried out by the Water Resources Administration of the Natural Resources Protection Agency. Water resources are managed by two basin management boards12 , which include representatives of the states, the federal government, and state water supply agencies. These bodies issue permits for the use of water bodies, set water quality standards, and monitor compliance with the issued instructions. States also have the right to issue their own laws and regulations in the field of water use with respect to water bodies located within the territory of the respective state.

Congress has the right to regulate water bodies located on the territory of several states (historically, this was the case because such water resources were important trade routes, and trade was regulated exclusively by Congress).

The U.S. Environmental Protection Agency (U.S. EPA) is a federal executive agency whose main task is to protect human health and the environment. The Agency sets national standards for various programs to protect the environment. If the standards are not met, the Agency may impose sanctions (termination of the violator’s activities, fines, lawsuits, etc.).

The EPA delegates to states and Indian tribes the authority to issue various permits and to monitor compliance with and enforce environmental laws.

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US presents international water strategy https://www.iowater.net/us-presents-international-water-strategy/ Wed, 19 Oct 2022 09:03:00 +0000 https://www.iowater.net/?p=39 The U.S. government has unveiled a water strategy that aims to expand access to safe drinking water and improve sanitation around the world, Voice of America reports.

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The U.S. government has unveiled a water strategy that aims to expand access to safe drinking water and improve sanitation around the world, Voice of America reports.

“Clean water and sanitation are fundamental to health, economic development, peace and security,” the State Department and the United Nations Agency for International Development said in a statement.

The Global Water Strategy aims to achieve water security around the world. According to the agencies, 30% of the world’s population does not have access to clean drinking water in their homes, and 60% live in unsanitary conditions.

The agencies estimate that due to the lack of strategies to ensure adequate water resources, two-thirds of the world’s population will live under water stress by 2025.

The strategy calls on the U.S. government to work with other countries and “key players” to expand access to clean drinking water and adequate sanitation. Key elements of the plan also include protection, exchange, regulation and financing of water resources.

The strategy focuses primarily on regions with the most acute needs, where work “best serves the national security interests” of the United States, the statement said.

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Great Lakes of Iowa https://www.iowater.net/great-lakes-of-iowa/ Sun, 16 Jan 2022 08:02:00 +0000 https://www.iowater.net/?p=35 The Great Lakes of Iowa, often called the Okoboji, are a group of natural lakes in northwestern Iowa in the United States.

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The Great Lakes of Iowa, often called the Okoboji, are a group of natural lakes in northwestern Iowa in the United States. There are seven lakes in the region with a total area of 12,687 acres (5134 ha) with three major lakes in the group: Big Spirit Lake, West Okoboji, and East Okoboji. These are the largest natural lakes in Iowa. The largest, Spirit Lake, covers 5684 acres (2300 ha). The lake area extends north into Jackson County, Minnesota. The headwaters of the Little Sioux River flow past the western side of the lake.

History

The area around the Great Lakes of Iowa was not known as a permanent Sioux settlement, but rather as a place for recreation or hunting. When settlers arrived around 1856, it led to conflicts and eventually the Spirit Lake Massacre in 1857.

After the massacre, European settlers slowly returned, and by 1900, nearly 8,000 people lived in the area. The Iowa Great Lakes Sanitary District was created in 1939 to protect the lakes from pollution and sanitary problems. Similarly, the Iowa Great Lakes Association was created in 2008 when the waters were threatened by large-scale industrial agricultural development.

Geography

The Great Lakes region of Iowa formed 13,500 years ago along the southwestern edge of the Des Moines Ice Sheet as it pushed south into Iowa. The deepest part of the lake is 136 feet (41 m) in western Lake Okoboji.

The Great Lakes of Iowa are located in the Spirit Lake micropolitan area, and the cities of Spirit Lake and Milford are located within the lake.

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Iowa’s aquatic habitats https://www.iowater.net/iowas-aquatic-habitats/ Mon, 21 Jun 2021 07:53:00 +0000 https://www.iowater.net/?p=32 Iowa is home to many fascinating aquatic habitats with robust ecosystems and rich biodiversity. Below is a summary list of resources to help you as you explore Iowa's aquatic habitats.

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Iowa is home to many fascinating aquatic habitats with robust ecosystems and rich biodiversity. Below is a summary list of resources to help you as you explore Iowa’s aquatic habitats.

The “Land of the Rolling Prairies” offers rolling prairies and cornfields, as well as some steep hills and valleys in the Paleozoic Plateau Zone, a free zone in the northeast, a region that escaped the leveling effects of glaciation during the last ice age.

Most of Iowa’s land is used for agriculture; crops occupy about 60% of the state’s territory, 30% is grassland (pasture and hayfields with some prairie and wetlands).

Rivers

The Missouri and Mississippi Rivers are the boundary rivers that define Iowa’s border to the west and east.
Other major rivers include the Des Moines River, Cedar River, Iowa River, and Wapsipinicon River (Wapsi); all are tributaries of the Missouri.
The Big Sioux River in the northwest is a tributary of the Missouri River and marks the Iowa portion of the border with South Dakota. The Chariton and Grand River rivers originate in Iowa.

Lakes

The largest lakes in Iowa are Red Rock Lake, a reservoir on the Des Moines River, and the Great Lakes of Iowa, several deep glacial lakes in the northwestern part of the state. These are the largest natural lakes in the state. Lake Rathbun, the second largest lake in Iowa, is located in Appanoose County; West Okoboji Lake and Spirit Lake are the two largest lakes in the Great Lakes of Iowa, and Saylorville Lake, another reservoir on the Des Moines River. Lake Clear is one of the largest natural lakes in the state.

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Saved water resources https://www.iowater.net/saved-water-resources/ Sat, 20 Mar 2021 07:50:00 +0000 https://www.iowater.net/?p=29 In the United States in the mid-twentieth century, numerous dams were built in arid areas to create available water.

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In the United States in the mid-twentieth century, numerous dams were built in arid areas to create available water. In the United States, the construction of large dams and associated transportation systems to manage water demand has been slowed.

In any case, the normal lifespan of a dam is 50 years, and by 2020, 85% of dams in the United States will exceed 50 years. Development of dams continues in many countries around the world. After some time, the limit of all dams decreases as residues accumulate behind them. An estimated 1% of the world’s dam capacity limit is lost every year due to sediment accumulation.

Water use and consumption

Water from various assets is taken back to be used and utilized in various human physical activities. The term “use” refers to every human movement for which a portion of the water taken is returned for reuse (e.g., cooking water, laundry water, and wastewater). Conversely, disposal means that the water taken is not recovered. For example, evaporation of water from plants is discharged into the environment and is considered non-renewable.

Freshwater withdrawals in the United States, including the water supply system, are approximately 1600 billion liters per day, or about 5500 liters for each person. Of this amount, about 80% comes from surface water and 20% is returned from groundwater (USBC 2003). Normal withdrawals are 1970 liters per day for all causes worldwide. About 70% of the water collected worldwide is absorbed and cannot be recovered.

Agriculture and water

Plants need water for photosynthesis, development, and reproduction. The water used by plants is not renewable because some of the water is converted into part of the plant’s complex cosmetics and the rest is released into the climate.

Carbon dioxide fixation and temperature control procedures expect plants to deploy gigantic amounts of water. Different products use water at rates of 300 and 2000 liters for each kilogram (kg) of dry matter of the resulting crop.

The normal global movement of water into the environment by transpiration of vegetation from terrestrial biological systems is estimated to be approximately 64% of all precipitation that falls on Earth.

The basic soil moisture content, the basis for crop development, varies. For example, potatoes in the United States require 25% to half; hay, 30% to half; and corn, half to 70%. It is believed that rice in China requires soil moisture of at least 80%. Precipitation patterns, temperature, vegetation cover, abnormal amounts of natural soil problems, dynamic soil biota, and water overflow all affect the penetration of precipitation into the soil where plants use it.

The water required to fertilize and clean crops ranges from about 300 to 2000 liters for each kg of dry yield. For example, in the United States, 1 hectare of corn with a yield of about 9,000 kg per hectare uses about 6 million liters of water per hectare during the development season. In contrast, an additional 1 to 2.5 million liters per hectare of soil moisture is dissipated into the environment.

This means that the corn development season requires about 800 mm of precipitation (8 million liters per hectare). Indeed, even with annual precipitation of 800 to 1000 mm in the U.S. Corn Belt, corn occasionally experiences water shortages during its main summer development period.

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Water resources of the USA https://www.iowater.net/water-resources-of-the-usa/ Tue, 11 Aug 2020 07:39:00 +0000 https://www.iowater.net/?p=23 Water resources are sources of water that are valuable or likely to be useful to people. It is critically important because it is necessary for the existence of life.

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Water resources are sources of water that are valuable or likely to be useful to people. It is critically important because it is necessary for the existence of life.

The many uses of water include agricultural, mechanical, domestic, recreational, and environmental activities. These human uses require new water.

Only 2.5% of the world’s water is fresh, and more than 66% is frozen in glaciers and polar ice caps.

In many parts of the world, water demand exceeds supply, and countless areas are needed to face this lopsidedness sooner or later. It is estimated that 70% of total water use goes to irrigation in agriculture. Environmental change will affect water resources around the world because of the close links between the atmosphere and the hydrological cycle.

Due to the increase in human population, competition for water is developing with the ultimate goal of significant depletion of many of the world’s significant aquifers.

Numerous pollutions undermine water supplies, but the biggest, especially in immature nations, is the discharge of untreated sewage into typical waters.

In the United States, we have a wealth of water. The country is home to 4.5 percent of the total population and only about 8 percent of the freshwater. It is home to the most prominent freshwater lake system on the planet, the Great Lakes, which holds six quadrillion gallons of water (six is taken after 15 zeros). In addition, the mighty Mississippi River flows 4.5 million gallons every second at its mouth in New Orleans, providing water to approximately 15 million people.

The components that affect water resources include related ones:

  • Population development, especially in low-water areas,
  • the development of huge numbers of people from the field to cities and urban areas
  • demands for greater food security and higher expectations for daily comfort,
  • increased competition between different uses of water resources;
  • Pollution from production lines, urban areas and agricultural land

Of the three volumes published late by the United States Geological Survey (No. 256) on “The Geology and Groundwater of Southern Minnesota” by Messrs. Lobby, Meininger, and Fuller, is the most intriguing and important to the case. It is a 406-page handout with a variety of areas and charts, as well as four fold-out maps, all of which cover issues, physiographic, land use, and water supply-related components in the southern two-fifths of Minnesota, a 28,265-square-mile area roughly the size of Scotland or Ireland. The area contains two significant cities, Minneapolis and St. Paul; however, separated in this way, the entirety, with its 1ΒΌ million tenants, is horticultural.

The surface consists of three raised levels of different, trough-like disappointments between all but the large southeast and southwest corners, formed by a cold float that survived the last ice attack. “There is no more widespread case of a terrestrial moraine left over from a continental ice sheet, as seen by the broad, somewhat undulating, bleak areas of southern Minnesota dotted with endless shallow lakes and lakes, and supplied by an endless system of marshes.”

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