Healthy Water Practices
Water Conservation in Your Landscape
Water plays a vital role in all landscapes. In addition to being required for plant life, it is also the lifeblood of any environment. The rain water that leaves your property is not isolated. This water overflows into a series of roadway ditches or drainage inlets, which lead to local streams, rivers, and, ultimately, the Gulf of Mexico. This stormwater picks up sediment, nutrients, and pollutants along the way, which can cause significant impacts to the health of Mississippi’s water bodies. In fact, according to the Mississippi Department of Environmental Quality, non-point source pollution (pollution that comes from a number of different non-specific sources, such as subdivisions or neighborhoods) is the leading cause of water pollution in the state of Mississippi, as well as in the nation.
There are a number of different things that you can do in your landscape that can improve or maintain the water quality of your property. Some techniques store or detain water temporarily in order to prevent flooding downstream, and others capture water so that it can be reused for watering plants. All of them result in a positive benefit to water management on your property.
Reduce watering needs.
According to the EPA, the United State "accounts for nearly 9 billion gallons of water each day, mainly for landscape irrigation. The average US household uses more water outdoors than for showering and washing clothes combined.” Homeowners can reduce their watering needs by using native plants that are adapted to the natural rainfall amounts, by choosing appropriate plants based on site conditions, and by grouping plants according to their water needs. Store and reuse rainwater by adding rain barrels and rain gardens. This will reduce your dependance on tap water.
Reduce stormwater runoff and improve water quality.
- Filter water before it leaves your garden.
- Reduce runoff so surrounding water bodies don’t overfill.
- Increase impervious surfaces so rain soaks into the ground.
- Create wetlands and retention ponds.
- Reduce non-point pollution.
The following documents detail some Smart Landscape compatible solutions and methods that are available
MSU Extension Service Publications
Water plays a vital role in all landscapes. In addition to being required for plant life, it is also the lifeblood of any environment. The rain water that leaves your property is not isolated. This water overflows into a series of roadway ditches or drainage inlets, which lead to local streams, rivers, and, ultimately, the Gulf of Mexico. This stormwater picks up sediment, nutrients, and pollutants along the way, which can cause significant impacts to the health of Mississippi’s water bodies.
Because of gravity, water flows downhill. Rain that falls on your home will make its way into streams, rivers, lakes, and, eventually, the Gulf of Mexico. This water will also flow through your neighbors' gardens and other communities, positively or negatively impacting thousands of people. Before your home was built on your property, there was a dense native landscape such as a forest or prairie that naturally cleaned and absorbed much of the rain that fell there throughout the year. Your home, driveway, and other pavement greatly increases the amount of rainwater runoff that may pickup pollutants from your home watershed and carry them downstream. Your actions affect the cleanliness of the water as well as the quantity of water that, when combined with others’ runoff, may increase the flood risk. It is important to remember that this runoff affects not only you but also everyone else downstream, and we are all downstream.
Long before your community was built, the sun evaporated water, which condensed in the sky and later fell as rain. This rain fell on forests or deep-rooted grasses. Water that wasn’t used by plants or infiltrated to become groundwater slowly made its way to streams, lakes, and rivers. This same process still happens today, but impervious surfaces such as parking lots and roofs do not allow water to infiltrate into the ground. Instead, large amounts of water move quickly to streams, lakes, and rivers. Increased flows can cause erosion and flooding. Along the way, rainwater also picks up pollutants such as oils, fertilizers, and pesticides that can harm the water resources that are needed by plants, animals, and people.
Rain gardens are stormwater drainage areas that temporarily store rainwater until it can filter into the soil. Rain gardens do not permanently store water, and they have surface water only during and shortly after rainfall events. When properly designed, rain gardens should have surface water for only few days, which is not long enough for mosquito eggs and larvae to develop into adults.
Sub-irrigated containers offer a successful gardening alternative for gardeners with limited spaces. They are perfect for small yards, porches, or even balconies. While this publication primarily addresses vegetable gardening, sub-irrigated containers are also good at growing flowering ornamentals.
It’s important to make smart choices regarding water use. Knowing the source of your drinking water is the first step toward protecting it.
Communities are under increased pressure to improve water quality in local streams and waterways in urban and suburban areas. Pollution in these areas occurs from rainwater runoff from commercial or residential properties, including your own backyard. As developed communities contain expansive buildings and pavement, water runoff carries oil, chemicals, soil, and fertilizers to local waterways, which can seriously harm water quality and aquatic life. This type of non-point source pollution is the primary source of stream contamination in the United States. There are several easy steps that you can take to ensure that your property is not degrading the water quality of your area.
From quiet shallow ponds to the active spray jets in a formal pool, water can provide just the right element for the many moods of a landscaped space
Principles Of Xeriscape Design
Water – Use It Wisely campaign
The City of Durham, North Carolina
WaterSense Water-Smart Landscapes guide
Environmental protection Agency
Reducing Stormwater Runoff
Alabama Smart Yards Handbook
Chapter #9 pg 47-56
Reducing Stormwater Runoff
The Florida Yards & Neighborhoods Handbook
Chapter #8 pg 43-45
Stormwater Control Ponds
Alabama Smart Yards Handbook
Chapter #10 pg 61
Reclaim Your Rain: Rain Gardens for Home Landscapes
STARKVILLE, Miss. -- A water sampling program conducted by the Mississippi State University Extension Service has encouraging initial data about lead levels in drinking water collected at child care centers around the state.
Preliminary data gathered as part of the SipSafe program paint a reassuring picture for most of the faucets sampled.
COMO, Miss. -- The Mississippi State University Extension Service will cohost a collaborative field day in Panola County Sept. 29 to share information about cover crops and reduced-till farming, soil and water health, and pasture soil and water management.
The Mississippi Land Stewardship field day runs from 9 a.m. to 1 p.m. and begins at Buckeye Farms at 3251 Tom Floyd Road in Como. Attendees will then travel to two different fields, one row crop and one pasture. The field day will conclude at Home Place Pastures. A complimentary lunch is included for participants.
SHAW, Miss. -- Mississippi State University scientists will cohost a collaborative field day in the Mississippi Delta on July 13 to share information about cover crops, soil and water health, and irrigation automation and efficiency.
The Soil and Water Stewardship in Row-Crop Systems field day runs from 9 a.m. to 1 p.m. and begins at Mosco Farm at the southwest of 813 US-61 in Shaw. Attendees will travel to Clements Farm and finish the event at the West F.A.R.M. Pavilion. A complimentary catfish lunch is included for registered participants.
Sledge Taylor is no stranger to cover crops —he first planted vetch on 100 acres of his Panola County farmland in 1979—but he has ramped up his cover crop usage and added other sustainable agricultural practices over the past 15 years.