Soils, plants, and animals are highly interdependent. Soils support and feed microbes and plants which feed animals. Dead plants and soil critters replenish the soils’ organic matter and nutrient supply, completing the cycle. We know that healthy soils produce healthy plants. Many experts believe that improving soil health is the most important thing we can do to make our farms and gardens more climate-resilient.
Why are soils so important in dealing with climate change?
- They store huge amounts of carbon in the form of carbon dioxide (CO2) and organic matter, all of the living, dead, and decomposing plants, microbes, and animals that live in soil. Carbon dioxide is the primary greenhouse gas that is warming the planet. Deforestation, the removal of wetlands and peatlands, and soil tillage cause the release of huge amounts of CO2. Warmer temperatures cause more rapid organic matter decomposition and turnover, especially if soils are tilled and uncovered.
- Climate change is causing mid-Atlantic weather to be warmer and wetter with more extreme weather events, including periodic drought. This increases the risk of soil erosion and nutrient run-off from intense rainfall, and the risk of plant stress from excessively wet or dry soils.
Soil organic matter plays a critical role in soil health. It “glues” together soil particles into stable aggregates, resistant to dispersion and erosion from heavy rainfall. It also improves water infiltration and the water holding capacity of soils making them more drought-tolerant.
Use these six practices to improve soil health and climate resiliency:
- Keep soils covered
No bare soil! Keep soils covered with garden plants, groundcovers, mulches, and cover crops to reduce erosion risks and nutrient run-off, moderate soil temperatures, and slow the evaporation of water from your soil. Use grass clippings, tree leaves, and newspaper around plants and between rows to smother and prevent weeds.
- Minimal disturbance (no-till, low-dig)
Tilling and turning soil to start a garden or prepare soil for planting will bring weed seeds to the surface, accelerate the loss of organic matter, and disturb the soil food web (microbes, earthworms, and other small soil animals.)
- When starting a vegetable garden, adopt the no-till strategy of smothering grass and weeds. First, cut all vegetation on the site as close to the ground as possible. Next, cover the area with unwaxed cardboard or overlapping sections of newspaper. Cover with compost or a soil/compost mix and you are ready to plant seeds or transplants. The cardboard, newspaper, grass, and weeds will slowly decompose allowing the roots of your vegetable crops to grow through the organic residues and into the soil.
- It’s preferable to start the process in fall to give the cardboard, newspaper, and vegetation time to fully decompose but this approach can also work well in spring.
Use low-dig planting techniques to prepare garden soil for sowing seeds and setting out transplants. Disturb the smallest amount of soil as possible.
- Living roots year-round
Plant roots leak sugars and other compounds that support microbial populations. This builds organic matter in the rhizosphere as dead microbes make up a big portion of soil organic matter, helping the soil recycle and store carbon. Fall-planted cover crops protect the soil, build soil organic matter, and take up nutrients and release them for the plants that follow.
- Increase plant diversity to increase soil biodiversity
Different plant species support different populations of soil microorganisms. Increasing plant diversity aboveground will increase microbial activity and biodiversity underground as well as increasing carbon storage. Increasing plant diversity is especially important on degraded, low-fertility soils.
- Test your soil!
A basic soil test conducted by a soil testing lab will give you baseline information about soil pH (too high or too low can reduce nutrient availability and microbial populations), soil organic matter levels, and nutrient levels. The lab report will also come with the appropriate liming and fertilizing recommendations.
I had the soil in my vegetable garden tested last fall and learned that beds on one side of the garden were low-medium in phosphorous and that two beds required lime. Only a soil testing lab can provide such precise and important information.
Increasing a soil’s organic matter content in flower, fruit, and vegetable beds will reduce the need for supplemental fertilizers. Each 1% of soil organic matter releases approximately 1/2 – 1 lb. of available nitrogen per 1,000 sq. ft. Garden soils that are >4% soil organic matter will need relatively little additional fertilizer.
We can recycle nutrients (“close the loop”) in our gardens and yards by making and using compost and planting cover crops. Try to avoid synthetic nitrogen fertilizers because they require large amounts of natural gas to produce. Rely on local resources as much as possible to reduce energy use in transportation.
By Jon Traunfeld, Extension Specialist, University of Maryland Extension, Home & Garden Information Center.
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