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To celebrate World Biodiversity Day, Navdanya International presents Biodiversity is Life.
We break down how all levels of biodiversity have a direct and tangible tie to human health. Especially as an intimate connection exists between the biodiversity of our diets and gut, and our surrounding ecosystems, making health a continuum. Biodiversity is, hence, needed at every level of the food system.
Our human health is completely dependent on the health of our ecosystems. The health of every being on the planet is deeply connected to the overall health of the web of diverse beings that make up our ecosystems. Through a continuum from the biodiversity of the soil, the diversity and interrelationships of cultivated and wild plants and animals, the biodiversity of seed and the diversity of Earth’s processes, ecosystems are built, move in resilience and renew the Earth’s cycles.
All levels of biodiversity have a direct and tangible tie to human health. Especially as an intimate connection exists between the biodiversity of our diets and gut, and our surrounding ecosystems, making health a continuum.
Biodiversity is, hence, needed at every level of the food system.
With the rise of industrial agriculture, health has been removed from consideration under the myth of higher productivity. This means that environmental degradation and the destruction of biodiversity, leading to the depletion of the diversity of nutrients, crops, seeds has a direct effect on human overall health.
In the wake of this health and biodiversity crises, it becomes even more important to transition to a biodiversity-based agroecological food system based on cultivating care and health of both people and nature.
The future of our food and agriculture systems is shown by small farmers, local communities and gardeners who are already implementing biodiversity-based organic agroecology, which preserves and rejuvenates the health continuum between the soil, plants, animals, food and humans. Acting as a holistic paradigm shift where diversity in all areas is cultivated for ecological resilience and health.
“Biodiversity is life. Biodiversity weaves the web of life. It is not corporate ‘intellectual property’. It is not a financial asset of those whose greed drives biodiversity extinction and loss.” — Dr Vandana Shiva
Biodiversity is a continuum
There is an intimate connection between all levels of biodiversity, and the health of every being on the planet. Biodiversity determines the health of an ecosystem as it creates and maintains niches for a variety of different beings as well as rejuvenating ecological functions. The greater complexity an ecosystem has, the greater the resilience and health of that system. All of these processes have a direct and tangible tie to human health, as an intimate connection exists between the biodiversity of the soil, microorganisms, plants and their seed, wild as well as crop varieties and species, and animals, to the biodiversity of our diets and gut. Biodiversity is, hence, needed at every level of the food system.
Health of ecosystems is determined by Biodiversity
Biodiversity regulates the health of the nutrient, water and carbon cycles that move through the soil and out to the rivers, forests and oceans. Soil is the most diverse ecosystem on the planet, with one gram of soil containing up to one billion bacteria cells and fungi mycelium, and countless other insects, arthropods and nematodes.The health of the soil makes up the health of the plants that grow in it, which go on to affect the health and diversity of the animals who feed on those plants. Those plants and animals feed us.–
We are soil! We are biodiversity!
The biodiversity of the soil microorganisms are intimately tied to the health and diversity of our human microbiome, through the soil we have contact with, and the food that we eat. The soil microbiome and the human microbiome are one super-organism, as the soil acts as a reservoir of the diversity of microbiota. Our microbiome holds the key roles of regulating our metabolism, enhancing our immune system, regulating hormones and the circadian rhythm, and contributing to nutrient generation and absorption. This means any depletion in the diversity of the soil microbiome caused by industrial agriculture, has a direct effect on human health.
Biodiversity is diversity in life
Working in direct relationship with Nature and centering the care of biodiversity and ecosystem health, has historically produced knowledge systems that recognize how all forms of life interact and influence each other to form a complex web of life. The biodiversity of soils, and the interrelationships of plants and animals, have over millennia given rise and co-evolved into diverse cultures and knowledge systems based on health, resilience and care for the land. These relationships have gifted us the huge diversity of seeds, crops and foods that have made up traditional diets and traditional cultivation systems.
The rise of industrial agriculture has triggered the downfall of biodiversity
But with the rise of industrial agriculture, the health of agroecosystems is no longer considered under the myth of higher productivity and yield per acre. The globalized, industrialized agrifood system has caused unprecedented destruction thanks to the use of agrotoxins, heavy tilling, GMO monocultures, and mass land use change. All causing animals and plants to be under threat of extinction, the soil microbiome to become exhausted, and the degradation of entire ecosystems.
In one century, 75% of genetic diversity disappeared y due to monoculture cropping, and uniformity plant breeding. Today, maize, wheat and rice provide 60% of our daily calories, while only 9 crops make up 66% of total crop production.
The loss of biodiversity in our diets
Modern-day industrial seed breeding seeks for plant varieties to produce a totally uniform crop through identical genetics. This type of industrial seed breeding has led to the replacement of local varieties evolved over centuries with homogeneous, hybrid or genetically modified varieties.
The reduction of biodiversity in diets has led us to consume just over 200 species out of the over 6,000 varieties identified, and the great majority of people are now living off of no more than twelve plant species and five animal species.
We are what we eat, harming biodiversity harms our health
Therefore, the combination of diets based on industrial processed-food and the degradation of biodiversity at all levels of the food systems have resulted in the depletion of the human microbiome, a lack of basic nutrients, and food being potentially contaminated with carcinogenic and endocrine disrupting chemicals from agrochemicals, artificial growth hormones, and antibiotic resistant strains of bacteria. The huge explosion of noncommunicable diseases is directly related to these shifts.
False solutions are not the answer
Despite international recognition of the importance of biodiversity restoration and conservation, biodiversity loss has continued to worsen, with no action taken to curb the industrial agrifood model based on agrotoxins, land degradation, fossil fuels and pollution.
Many false solutions are actively being promoted in the name of biodiversity preservation, such as digital sequencing of genetic information, biofortification for nutrition, a new generation of GMOs and precision agriculture for ‘sustainable agriculture’. But these false solutions only reorient us back to industrial agriculture models.
We can cultivate health through agroecology
A biodiversity-based, agroecological food systems transformation, in opposition to the ecologically destructive, globalized food systems, is being advocated for by movements throughout the world in the name of food sovereignty. Embodying a different vision of what food systems can be, these movements are preserving seeds, soils, biodiversity, agroecosystems and nutrition.
Farmers are stewards of diversity to be passed on through the generations to ensure the long-term resilience of different crops, knowledge, culture and community through recognizing the sanctity of all beings to maintain the web of life. Humans are part of the food web- as custodians, as co-creators, as eaters, as growers. Food makes us members of the Earth Family.
© Navdanya International 2022
Illustrations: Sara Filippi Plotegher for Navdanya International
One Planet, One Health – Connected through Biodiversity: From the forests, to our farms, to our gut microbiome, Dr Vandana Shiva, March 2020
Manifesto Food for Health: Cultivating Biodiversity, Cultivating Health, Navdanya International 2019
Annam: Food as Health, Navdanya, 2017
Altieri, Miguel A., and Clara I. Nicholls. 2020. “Agroecology and the Reconstruction of a Post-COVID-19 Agriculture.” The Journal of Peasant Studies 47 (5): 881–98. https://doi.org/10.1080/03066150.2020.1782891.
Altieri, Miguel, and Clara Nicholls. 2004. Biodiversity and Pest Management in Agroecosystems. 2nd Edition. New York: CRC Press.
Barański, Marcin, Dominika Średnicka-Tober, Nikolaos Volakakis, Chris Seal, Roy Sanderson, Gavin B. Stewart, Charles Benbrook, et al. 2014. “Higher Antioxidant and Lower Cadmium Concentrations and Lower Incidence of Pesticide Residues in Organically Grown Crops: A Systematic Literature Review and Meta-Analyses.” British Journal of Nutrition 112 (5): 794–811. https://doi.org/10.1017/S0007114514001366.
Bharucha, Zareen, and Jules Pretty. 2010. “The Roles and Values of Wild Foods in Agricultural Systems.” Philosophical Transactions of the Royal Society B: Biological Sciences 365 (1554): 2913–26. https://doi.org/10.1098/rstb.2010.0123.
Blum, Winfried E.H., Sophie Zechmeister-Boltenstern, and Katharina M. Keiblinger. 2019. “Does Soil Contribute to the Human Gut Microbiome?” Microorganisms 7 (9). https://doi.org/10.3390/microorganisms7090287.
Ceccarelli, Salvatore. 2019. “Nurturing Diversity in Our Guts and on Our Farms to Reduce Health Risks and Increase Food System Resilience.” In The Future of Food, 45–51. Rome, Italy: Navdanya International.
Davis PhD, FACN, David R., Melvin Epp PhD, and Hugh D. Riordan, MD. 2004. “Changes in USDA Food Composition Data for 43 Garden Crops, 1950-1999.” Journal of the American College of Nutrition 23 (6): 669–82. http://saveoursoils.com/userfiles/downloads/1351255687-Changes%20in%20USDA%20food%20composition%20data%20for%2043%20garden%20crops,%201950-1999.pdf.
Dentico, Nicoletta. 2020. Ricchi e buoni? Volto oscuro filantropia globale. EMI.
Earther. n.d. “10 Years Ago, World Leaders Set Biodiversity Goals. They Haven’t Met a Single One.” Accessed September 21, 2020. https://earther.gizmodo.com/10-years-ago-world-leaders-set-biodiversity-goals-the-1845056565.
FAO. 2015. “Agroecology for Food Security and Nutrition: Proceedings of the FAO International Symposium.” Rome, Italy: FAO. http://www.fao.org/3/a-i4729e.pdf.
———, ed. 2017. The Future of Food and Agriculture: Trends and Challenges. Rome: Food and Agriculture Organization of the United Nations.
———. 2020. “How the World’s Food Security Depends on Biodiversity.” Rome, Italy: FAO: Commission on Genetic Resources for Food and Agriculture. http://www.fao.org/documents/card/en/c/cb0416en/.
FAO and Commission on Genetic Resources for Food and Agriculture. 2019. The State of the World’s Biodiversity for Food and Agriculture. Edited by Bélanger & D. Pilling. Rome, Italy: Food and Agriculture Organization of the United Nations. http://www.fao.org/3/CA3129EN/CA3129EN.pdf.
Food and Agriculture Organization of the United Nations, ed. 2017. The Future of Food and Agriculture: Trends and Challenges. Rome: Food and Agriculture Organization of the United Nations.
Garnett, Stephen T., Neil D. Burgess, John E. Fa, Alvaro Fernandez-Llamazares, Zsolt Molnar, Cathy J. Robinson, James E. M. Watson, et al. 2018. “A Spatial Overview of the Global Importance of Indigenous Lands for Conservation.” Nature Sustainability 1 (7): 369–74. https://doi.org/10.1038/s41893-018-0100-6.
Hertzen, Leena von, Ilkka Hanski, and Tari Haahtela. 2011a. “Natural Immunity: Biodiversity Loss and Inflammatory Diseases Are Two Global Megatrends That Might Be Related.” EMBO Reports 12 (11): 1089–93. https://doi.org/10.1038/embor.2011.195.
Hirt, Heribert. 2020. “Healthy Soils for Healthy Plants for Healthy Humans.” EMBO Reports 21 (8): 1–5. https://doi.org/10.15252/embr.202051069.
Iketch, John. 2011. “Healthy Soils, Healthy People; The Legacy of William Albrecht.” In . University of Missouri, Columbia. https://sites.google.com/site/albrechtlecture/home/text-of-2011-albrecht-lecture#_ftn2.
“Law of the Seed.” 2013. Florence, Italy: International Commission on the Future of Food and Agricutlture; Navdanya International. https://navdanyainternational.org/wp-content/uploads/2013/05/lawofseed.pdf.
Mancabelli, Leonardo, Christian Milani, Gabriele Andrea Lugli, Francesca Turroni, Chiara Ferrario, Douwe van Sinderen, and Marco Ventura. 2017a. “Meta-Analysis of the Human Gut Microbiome from Urbanized and Pre-Agricultural Populations.” Environmental Microbiology 19 (4): 1379–90. https://doi.org/10.1111/1462-2920.13692.
“Manifesto Food for Health: Cultivating Biodiversity, Cultivating Health.” 2019. New Delhi; Rome, Italy: International Commission on the Future of Food and Agricutlture; Navdanya International.
Navdanya. 2012. “Seed: The Embodiment of Cultural Diversity.” In Seed Freedom: A Global Citizen’s Report, 8–9. New Delhi: Navdanya. http://navdanya.org/attachments/Seed%20Freedom_Revised_8-10-2012.pdf.
Ray, C. Claiborne. 2015. “A Decline in the Nutritional Value of Crops (Published 2015).” The New York Times, September 12, 2015, sec. Science. https://www.nytimes.com/2015/09/15/science/a-decline-in-the-nutritional-value-of-crops.html.
Salonen, A., J. Salojärvi, L. Lahti, and W. M. de Vos. 2012. “The Adult Intestinal Core Microbiota Is Determined by Analysis Depth and Health Status.” Clinical Microbiology and Infection: The Official Publication of the European Society of Clinical Microbiology and Infectious Diseases 18 Suppl 4 (July): 16–20. https://doi.org/10.1111/j.1469-0691.2012.03855.x.
Shiva, Vandana, Kartikey Shiva, and Neha Raj Singh. 2018. “The Future of Our Daily Bread: Regeneration or Collapse?” New Delhi, India: Navdanya International; RFSTE.
Shroff, Ruchi, and Carla Ramos Cortés. 2020. “The Biodiversity Paradigm: Building Resilience for Human and Environmental Health.” Development 63 (2): 172–80. https://doi.org/10.1057/s41301-020-00260-2.
Singh, Rasnik K., Hsin-Wen Chang, Di Yan, Kristina M. Lee, Derya Ucmak, Kirsten Wong, Michael Abrouk, et al. 2017. “Influence of Diet on the Gut Microbiome and Implications for Human Health.” Journal of Translational Medicine 15 (1): 73. https://doi.org/10.1186/s12967-017-1175-y.
Thomas, David. 2007. “The Mineral Depletion of Foods 1940-2002– A Review of the 6th Edition of McCance and Widdowson.” Nutrition and Health 19: 21–55. http://mineralresourcesint.co.uk/pdf/Mineral_Depletion_of_Foods_1940_2002.pdf.
Thrupp, Lori Ann. 2000. “Linking Agricultural Biodiversity and Food Security: The Valuable Role of Agrobiodiversity for Sustainable Agriculture.” International Affairs 76 (2): 265–81. https://doi.org/10.1111/1468-2346.00133.
Wagg, Cameron, S. Franz Bender, Franco Widmer, and Marcel G. A. van der Heijden. 2014. “Soil Biodiversity and Soil Community Composition Determine Ecosystem Multifunctionality.” Proceedings of the National Academy of Sciences 111 (14): 5266–70. https://doi.org/10.1073/pnas.1320054111.
Wardle, David A., Richard D. Bardgett, John N. Klironomos, Heikki Setälä, Wim H. van der Putten, and Diana H. Wall. 2004. “Ecological Linkages Between Aboveground and Belowground Biota.” Science 304 (5677): 1629–33. https://doi.org/10.1126/science.1094875.