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Are you sinking...or Are you thinking...? Biodiverse Farming and Soil Management

This article discusses the traditional view of agricultural land use and biodiversity conservation as incompatible. It explores the shift towards interdisciplinary studies of human-influenced ecosystems in socially and economically sustainable agriculture. The detrimental impacts of intensified land use on biodiversity loss are highlighted, along with farming activities and landscape implications. The importance of soil fertility and the components of a soil care/fertilization program are emphasized. The demands on farmers and the importance of meeting customer expectations for social, economic, and environmental well-being are also discussed. The article concludes with a case study on soil potential and the future of vineyards.

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Are you sinking...or Are you thinking...? Biodiverse Farming and Soil Management

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  1. Are you sinking…? or Are you thinking…?

  2. Biodiverse Farming and Soil Management Bennie Diedericks

  3. Agricultural land use and biodiversity conservation have been traditionally viewed as incompatible. Ecologists and conservationists often focus on pristine or little intervened habitats to save the last remnants of wild nature. Such conservation focus is of limited value. In the last decade there has been a shift in focus to interdisciplinary studies of human-influenced ecosystems in the context of socially and economically sustainable agriculture.

  4. Intensified land use in agriculture and forestry is irrefutably the main cause of global change and biodiversity loss. Half of the plant species lost from pastures in Germany since WW2. Yield of cereals tripled since 1960, but is responsible for 30 % of the decline in European bird populations. 25 – 75 % reduction in nutrient values of food in the last 50 years.

  5. Farming Activities Shortening crop rotation cycles Decreasing crop diversity Increasing input of mineral fertilizers Increasing input of pesticides Implementation of genetically modified (GM) crops Deep ploughing, not minimum tillage Cultivating monocultures of high-yield varieties Increasing size of arable fields Machine-driven farming Lowering water table by drainage

  6. Landscape Implications Farmers specializing on one or few crops instead of mixed farming Converting natural vegetation to arable fields and blocks Destroying edge habitats (field boundaries, buffer zones along rivers) Reallocating land to increase field size and make farms more compact. Simplifying landscapes with a spatially and temporally limited number ofland-use types increasing landscape homogeneity Giving up traditional, low-intensity land-use management Avoiding set-aside fallows and cultivating formerly abandoned area (oldfields) Reducing resistance to invasion of introduced species Lowering landscape-wide water tables Fragmenting natural habitat

  7. Soil fertility is measured by: Microbe count – under attack from pesticides and fertilizers Plant health – healthy plants do not attract insects or disease

  8. Plants are the vechiles to transport minerals and nutrients from the soil to animals and people Plant derived minerals are 98% bio-available Plants can not make minerals

  9. Measure the efficiency of your fertilization program against the amount of chemical inputs required as leaf and soil applications. The more the inputs, the less efficient. Chemicals treat symptoms, it does not solve problems

  10. 1g of healthy soil contain: More bacteria than there are people on earth 60 000 m of fungi hyphae 100-1000’s protozoa 5-500 nematodes 100-1000’s micro arthropods

  11. Components of soil care / fertilization program Chemical Biological Physical Irrigation Management

  12. Produce nutrition food. Forget pure organics, just nutritionally balanced, chemical free food The physical and cultural development of people depend on the soil

  13. Demands on producers/farmers driven by: -EU Environmental Directives -Corporate Social Responsibility -Agricultural Standards

  14. A successful business is no longer just profitable, but is also able to predict and meet customer expectations and deliver social, economic and environmental well-being.

  15. Retailers do not consider that customers will pay more for products with an ‘environmental’ lable. Value to the producer therefore must come from being able to obtain contracts and make sales to the retailer.

  16. Environment 2010: Our Future, Our Choice: - Climate change - Nature and Biodiversity - Environment, Health and Quality of Life - Natural Resources and Waste

  17. Conclusion: A Case Study Location Soil Market Product and Marketing

  18. Pristine Renosterveld Natural drainage Wetland

  19. Wheat Fields Existing Vineyards

  20. Eco corridors Eco islands

  21. Soil survey indicating soil potential

  22. Low potential soils

  23. Future Vineyards Rehabilitated Veld Herbs Picnic Grazing Camps Olive Ochards

  24. Are yo

  25. Are you sinking or thinking…?

  26. Are you sinking or thinking…?

  27. Areas identified for rehabilitation Dams

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