Regenerative Garderning

Regenerative Farming

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Characteristics of Regenerative Gardening and Farming

Learning from natural systems

Forests, grasslands and other ecosystems maintain themselves by changes in their physical components. In such ecosystems, the physical components (landform, soil, water, air) work together to determine the living organisms (plants, animals, microbiota) and determine energy flows and nutrient cycles.

Although regenerative gardening or farming involves growing plants that are not indigenous to the area, attention to all other components is given, thus a more holistic approach is taken rather than just a focus on getting repeated production of a particular crop.

Minimal soil disturbance

This means not tilling or digging the soil so that its structure is maintained – i.e. spaces for air and water flows and for root penetration. This can be achieved by no-dig garden beds or no-till practices. In no-dig garden beds the growing medium is created by adding layers of soil, organic plant material and animal manures. No-till means that after crops are harvested, the ground is not ploughed or dug, roots are left in the ground and weeds may be destroyed by solarisation (see below). Another technique, soil aeration, using aerators – tools with prongs that punch holes – is still less damaging than ploughing or digging.

Sheet mulching

Mulches of either organic or non-organic materials are used between the planted crops to inhibit weed growth and retain moisture. They are also used to kill weeds and build soil on ground that has not yet been planted for crops

The materials are usually cardboard, newspaper, woodchips, straw or a combination. These all have the advantage of adding carbon to the soil and encouraging microbial growth. In small areas where perennials, not annuals, are grown, inorganic material can be used e.g. stones, but these do not add any nutrition.

Crop rotation

Plants to be harvested or those in the same plant family, are not grown in the same area in the subsequent season. This minimises the risk of host-specific pests and disease and also excessive depletion of particular essential nutrients There are many systems of rotation, some consisting of 4 cycles, one of which is a legume to add nitrogen to the soil. In other systems, it may be many years before the initial crop is planted in the same place again.

Cover crops

Associated with crop rotation is the use of cover crops or green manures. As in nature, soil is never left bare thus reducing weed invasion and erosion. Such crops are usually either grasses or legumes. Both add organic matter to the soil because root systems are left in place. They also prevent water runoff thus reducing erosion, increase biodiversity by attracting different insects and microbes from the previous crop and break cycles of host-specific disease. Crops with deeply penetrating roots can help break up compacted soil.

Legumes, so-called green manures, have the extra advantage of enriching the soil because of their nitrogen-fixing capabilities.

Cover crops are cut down or mown just before maturity and either left as surface mulch or lightly dug in.

Solarisation of weeds

Rather than pulling or poisoning weed-infested grassy areas before planting crops, regenerative gardeners cover the soil with either black or clear plastic with the edges held firmly in place. Under clear plastic, weeds grow and cook in the heat. Black plastic minimises growth by cutting off sunlight, but the plants still cook. As long as seed production has not occurred, the remaining organic matter can be left in place to add to soil quality or it can be removed and composted.

Compost

Artificial fertilisers are not used and importation of manure is minimised. Rather, all organic waste from pruning, mowing or remains of plants after fruit/seed harvest are composted. Manure from on-site animals is an excellent addition to compost heaps. Mature compost not only minimises waste but improves soil quality, fertility and structure

Perennials

Shifting focus from annual to perennial crops means that living roots are in the soil all the time, reducing compaction and erosion and providing host material and nutrition for soil microbiota. In addition to providing fruit or nuts, trees also are stable stores of carbon. Other such stores are vegetables which are perennial in the right climate, for example, rhubarb, artichokes, asparagus, seakale, sorrel, breadfruit, sweet potato and many more.  A new perennial relative of wheat, kernza, has been developed and may be a promising alternative to annual wheat.

Natural Pest and Disease Control Rather than Chemicals

It is increasingly recognised that chemical use in plant systems often causes harm to beneficial organisms and tends to encourage the development of resistance so that ever harsher chemicals are required. Regenerative agriculture and regenerative gardening rely on the natural ecosystem to keep pests and diseases under control. Natural systems are not monocultures, but complex arrays of plants and animals living in balance with one another. While such systems are not easy to create and harvest from in gardens or farms, it is possible to encourage biodiversity by using plants that mutually benefit each other through complementary nutrient requirements or the production of helpful chemicals or to attract a range of beneficial insects and organisms which keep pests and disease under control. Such systems use companion planting.

In Summary

When soil is healthy, it contains a diverse community of microorganisms that help break down organic matter and release nutrients that plants need to grow.

Regenerative practices such as cover cropping, crop rotations, reduced tillage, and using natural fertilisers and amendments help build soil organic matter, increase water-holding capacity, and improve soil structure.

As a result, plants, crops and animals grown in regeneratively managed soils are better able to access the nutrients they need to grow and thrive. This leads to crops with higher nutritional content and improved taste and flavour.

Research has shown that regeneratively managed crops and animals contain higher levels of important nutrients such as vitamins, minerals, and antioxidants compared to conventionally managed crops.

Reference Sustainable Gardening Australia

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You can make a difference. The choices we make every day as food consumers directly affect our health and the health of our soil.

Choose farmers who care for their land, who are local to you, and don’t use harsh chemicals.

Healthy soils provide habitats that support thousands of different species of fungi, bacteria and invertebrates, which then work in combination with livestock to drive Earth’s carbon, nitrogen and water cycles, thereby creating the nutrients and food we need to survive and thrive.

‘Regenerating our landscapes, will not only provide communities with locally grown, nutrient-dense, clean, healthy food it will also sequester carbon and rebalance our ecosystem.

Reinvigorating these ecosystems into stable, biodiverse, natural havens for all creatures great and small.

It is that simple.’

Emma Jane Milosevic, Soil Advocate

“To be a successful farmer one must first know the nature of the soil.” -

Xenophon, Ancient greek philosopher and historian, student of Socrates, Circa 430 - 354 BC.

Regenerative agriculture can regenerate Australia

OLIVIA HEDGE

Kyneton High School

Regenerative agriculture is a solution to some of our biggest problems. Effective implementation of regenerative practices can help reverse climate change, increase biodiversity, improve public health and economic outcomes of Australian farms. We have an opportunity to make positive economic, environmental and social change by rethinking commercial farming in Australia. The support of consumers and policymakers is essential for a smooth transition to regenerative practices.

Regenerative agriculture is a way of farming which improves soil, based on Indigenous knowledge, holistic planning, pioneering science and farmers' experience. Healthy soil is a synergistic, living system of microorganisms which play a crucial role in maintaining soil fertility, sequestering carbon, delivering nutrients to plants and retaining water. But the world's soils are being turned to dirt. Soil degradation affects water systems, biodiversity, greenhouse gas emissions and human health. Methods such as no-till farming, cover cropping or rotational grazing are examples of regenerative practices that can repair soil by mimicking natural processes.

The financial benefits of regenerative agriculture will outweigh any initial cost. The Australian government has spent billions of dollars on drought, fire and flood relief for the agriculture industry, but this money is only a temporary solution. Farmers are under unprecedented pressure to produce food with unsustainable agricultural methods which degrade the soil and rely on expensive chemical inputs. Using regenerative agriculture to improve soil function and the symbiotic relationship between plants and the soil, we can significantly reduce the chemical input cost crippling farmers today and subsequently increase farm profit margins. An improvement in soil structure means increased water retention capacity and reduced erosion, increasing our valuable topsoil's resilience to floods, fires and other weather events, reducing the cost of extreme weather events relief.

Improvement in soil health can improve human health. Studies have shown that widely used agricultural chemicals such as glyphosate (Roundup) can have a severe and negative impact on our health. Chemicals applied to farmland don't only get into our food, a considerable portion is leaked into the environment after being applied to land, contaminating water sources and polluting the air. Recent studies have linked an increase in glyphosate (Roundup) use with the exponential increase in autoimmune diseases such as type 1 diabetes and Alzheimer's disease. Additionally, the degradation of soils worldwide reduces the nutrient density of soil and consequently nutrient content of the food being grown. Global Hunger Index states that approximately 2 billion people suffer from "hidden hunger" in which you are consuming enough calories but starve due to malnutrition, and this is partly due to the reduced nutrient content of food. Farming regeneratively can improve the soil function, nutrient density of produce and therefore public health.

Regenerative agriculture can help solve climate change and increase biodiversity. Australia's agriculture industry contributes roughly 13% of our annual emissions. But regenerative agriculture could sequester our emissions rather than create them. The two main greenhouse gases, carbon and water, are crucial components of healthy soil, and when we farm in a way which encourages plant growth and soil life, we can move carbon and water from the atmosphere to the soil, sequestering emissions and reversing climate change. The carbon and water improve the structure and quality of soil, improving plant growth, microbial activity and biodiversity and create a positive feedback loop of increased plant growth and sequestration of greenhouse gases.

Regenerative agriculture is an opportunity to farm better and regenerate Australia. We have a chance to help solve some of our biggest problems without a long-term economic cost, and policy makers and consumers have a responsibility to make the transition to regenerative agriculture as accessible as possible to farmers.

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25 JULY 2022

Link to article here Whitlam Institute