Abstract
With increased demand for healthier and safer produce, China and many other countries have looked at the use of more environmentally friendly agricultural techniques. These techniques have included more sustainable practices such as intercropping systems, cover crops, water retention basins, which may help maintain production of some important staple or commercial crops (e.g. rice, tobacco and tea), while reducing the use of chemicals (pesticides or fertilizers), erosion and water usage. These strategies have been very beneficial in reducing risks but could they have many more advantages in the face of climate change? Despite the distances, both China and Africa are facing impacts from climate change. In China, predicted increased temperatures and changes in precipitation patterns may lead to reduced crop yields and in some cases, changes in quality of produce. In Africa, precipitation is predicted to be the main concern with rainfall being more unpredictable and less common. In both cases, agricultural systems have started to adapt to these changes but at drastically different paces. In this chapter, we focus on some preliminary results and lessons learned that can be extracted from the introduction of these sustainable techniques in China as a means not only to help reduce chemicals and restore soil properties but also as better ways to adapt to climate change. The discussion leads us to examine what are the main ingredients that need to be included to ensure that such practices help adapt to new changing conditions and the lack of information that may limit their adoption. Finally, we propose possible paths to move forward in helping farmers in rural communities of Africa and China access knowledge and gradually adopt more adaptive practices to face climate and environmental changes.
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References
Altieri, A. (1994). Biodiversity and pest management in agroecosystems. Binghamton: Haworth Press.
Altieri, M. A., Letourneau, D. K., & Risch, S. J. (1984). Vegetation diversity and insect pest outbreaks. Critical Review Plant Science, 2, 131–169.
Andersen, M. K., Hauggaard-Nielsen, H., Ambus, P., & Jensen, E. S. (2004). Biomass production, symbiotic nitrogen fixation and inorganic N use in dual and tri-component annual intercrops. Plant and Soil, 266, 273–287.
Andow, D. A. (1991). Vegetational diversity and arthropod population response. Annual Review Entomology, 36, 561–586.
Bakri, I. M., & Douglas, C. W. I. (2005). Inhibitory effect of garlic extract on oral bacteria. Archives of Oral Biology, 50, 645–651.
Bationo, A., Kihara, J., Vanlauwe, B., Waswa, B., & Kimetu, J. (2007). Soil organic carbon dynamics, functions an management in West African agro-ecosystems. Agriculture Systems, 94, 13–25.
Brooks, N. (2004). Drought in the African Sahel: long term perspectives and future prospects (Working Paper 61) Tyndall Center for Climate Change Research, UEA, Norwich. http://www.cru.uea.ac.uk/we118/publications/TynWP61.pdf
Cai, H. J., & You, M. S. (2007). Effects of garlic-Chinese cabbage intercropping systems on the guilds of arthropoda communities in vegetable fields. Entomology Journal East China, 16, 1–7.
Cai, H. J., Li, Z. S., & You, M. S. (2007). Impact of habitat diversification on arthropod communities: A study in the fields of Chinese cabbage, Brassica chinensis. Insect Science, 14, 241–249.
Challinor, A., Wheeler, T., Garforth, C., Craufurd, P., & Kassam, A. (2007). Assessing the vulnerability of food crop systems in Africa to climate change. Climatic Change, 83, 381–399.
Chellial, S., & Heinrichs, E. A. (1980). Factors affecting insecticide-induced resurgence of the brown planthopper, Nilaparvata lugens on rice. Environmental Entomology, 9, 773e777.
Chen, Y. G. (2002). Study on diversity retaining of arthropod and sustainable controlling of insect pests in tea orchards. Thesis type. South China Agricultural University, Guangzhou, pp. 68.
Chen, J. (2009). Rice planthopper problems and relevant causes in China. In K. L. Heong & B. Hardy (Eds.), Planthoppers: New threats to the sustainability of intensive rice production systems in Asia (pp. 157–177). Los Baños: International Rice Research Institute.
Chen, L. L., Lin, S., You, M. S., Chen, S. B., Vasseur, L., & Ye, S. C. (2011). Effects of cover crops on mite communities in tea plantations. Biodiversity Science, 19(3), 353–362.
Chen, L. L. (2011). Effects of tea intercropped with ground cover on the composition and structure of arthropods and other related animals. Thesis type. Fujian Agriculture and Forestry University.
Chen, Z. M., & Chen, X. F. (1989). An analysis on the world tea pest fauna. Journal of Tea Science, 9, 13–22.
Dehaan, J., & Vasseur, L. (2014). Above and below ground interactions in monoculture and intercropping. American Journal of Plant Sciences, 5, 3319–3327.
Eswaran, H., Almaraz, R., van den Berg, E., & Reich, P. (1997). An assessment of the soil resources of Africa in relation to productivity. Geoderma, 77, 1–18.
FAO. (2004). Rice is life. Rome: Food and Agriculture Organization of the United Nations. http://www.fao.org/newsroom/en/focus/2004/36887/index.html
FAO. (2011). Food and Agriculture Organization of the United Nations (FAO), FAO statistical databases.
FAO. (2012, February). Stability of food security in a green economy environment (FAO GEA Working Paper 3). Rome: FAO.
Goh, K. M. (2011). Greater mitigation of climate change by organic than conventional agriculture: A review. Biological Agriculture and Horticulture, 27, 205–230.
Goulding, K. W. T., & Whitmore, A. P. (2012). Developing sustainable farming systems by valuing ecosystem services. International Journal for Agricultural Sustainability, 10, 5–7.
Gurr, G. M., Wratten, S. D., & William, W. E. (Eds.) (2012). Biodiversity and insect pests: Key issues for sustainable management (pp. 360). Wiley-Blackwell.
Horrigan, L., Lawrence, R. S., & Walker, P. (2002). How sustainable agriculture can address the environmental and human health harms of industrial industry. Environmental Health Perspectives, 110, 445–455.
Kleter, G. A., Groot, M. J., Poelman, M., Kok, E. J., & Marvin, H. J. P. (2009). Timely awareness and prevention of emerging chemical and biochemical risks in foods: proposal for a strategy based on experience with recent cases. Food and Chemical Toxicology, 47, 992–1008.
Kohler, F., Verhulst, J., van Klink, R., & Kleijn, D. (2008). At what spatial scale do high-quality habitats enhance the diversity of forbs and pollinators in intensively farmed landscapes? Journal Applied Ecology, 45, 753–762. doi:10.1111/j.1365-2664.2007.01394.x.
Kumar, V., Ravindranath, S. D., & Shanker, A. (2004). Fate of hexaconazole residues in tea and its behavior during brewing process. Chemical Health and Safety, 11, 21–25.
Lahmar, R., Bationo, B. A., Lamso, N. D., Guéro, Y., & Tittonell, P. (2012). Tailoring conservation agriculture technologies to West Africa semi-arid zones: Building on traditional local practices for soil restoration. Field Crops Research, 132, 158–167.
Lai, R. Q., Lai, C. L., Zhong, X. J., Lin, T. R., & Li, Q. S. (2009). Garlic ethanol-extract’s deterrent effect on Myzus persicae (Sulzer) and anti-feeding effect on Spodoptera litura (Fabricius) for tobacco fields. Fujian Journal Agriculture Science, 24, 85–99.
Lai, R. Q., You, M. S., Lotz, L. A. P., & Vasseur, L. (2011a). Responses of green peach aphids and other arthropods to garlic intercropped with tobacco. Agronomy Journal, 103, 856–863.
Lai, R. Q., You, M. S., Jiang, L. C., Lai, B. T., Chen, S. H., Cen, W. L., & Jiang, D. B. (2011b). Evaluation of garlic intercropping for enhancing the biological control of Ralstonia solanacearum in flue-cured tobacco fields. Biocontrol Science and Technology, 21, 755–764.
Lin, B. B. (2011). Resilience in agriculture through crop diversification: Adaptive management for environmental change. BioScience, 61, 183–193.
Lin, S., You, M. S., Yang, G., & Chen, L. L. (2011). Can polycultural manipulation effectively control rice planthoppers in rice-based ecosystems? Crop Protection, 30, 279–284.
Lithourgidis, A. S., Dordas, C. A., Damalas, C. A., & Vlachostergios, D. N. (2011). Annual intercrops: An alternative pathway for sustainable agriculture. Australian Journal of Crop Science, 5, 396–410.
Ma, L.N. (2006). The research on interaction of green peach aphid and tobacco mosaic diseases. M.S. thesis. Southwest. University, Chongqing, China.
Ma, J. S., & Li, Z. Y. (2003). Tobacco insects. Beijing: China Agriculture Press.
Ma, J. S., Luo, M. H., Guo, X. L., & Jiang, J. W. (2007a). Tobacco insects in China. Beijing: Science Press.
Ma, L. N., Liu, Y. H., Zhang, L., Zhou, L. F., & Li, X. Z. (2007b). Effects of tobacco plants inoculated by different viruses on development and reproduction of Myzus persicae (Sulzer). Acta Phytophylacica Sinica, 34, 10–14.
Manhoudt, A. G. E., Visser, A. J., & de Snoo, G. R. (2007). Management regimes and farming practises enhancing plant species richness on ditch banks. Agriculture Ecosystems Environment, 119, 353–358. doi:10.1016/j.agee.2006.08.004.
Mariotti, M., Masoni, A., Ercoli, L., & Arduini, I. (2009). Above and below ground competition between barley, wheat, lupin and vetch in a cereal and legume intercropping system. Grass and Forage Science, 64, 401–412.
Muraleedharan, N., & Chen, Z. M. (1997). Pests and diseases of tea and their management. Journal of Plantation Crops, 25, 15–43.
Nagata, T. (2002). Monitoring on insecticide resistance of the brown planthopper and the white backed planthopper in Asia. Jounal Asia-Pacific Entomology, 5, 103–111.
Nelson, G. C., Rosegrant, M. W., Palazzo, A., Gray, I., Ingersoll, C., Robertson, R., Tokgoz, S., Zhu, T., Sulser, Ringler, T. B. C., Msangi, S., & You, L. (2010). Food security, farming and climate change to 2050. Washington, DC: International Food Policy Research Institute. 140 pp.
Nguyen, N. V. (2007). Sustainable intensification of rice production for food security in the near future. A summary report. Rome: Secretary, International Rice Commission, FAO. 14 pp.
Nielsen, J. Ø., & Reenberg, A. (2010). Temporality and the problem with singling out climate as a current driver of change in a small West African village. Journal of Arid Environments, 74, 464–474.
Peng, W. X. (2006). Study on eco-physiological effects of straw mulching and intercropping white clover in tea plantation in subtropical hilly red soil regions. Thesis type. Hunan Agricultural University.
Peng, W. X., Song, T. Q., Xiao, R. L., Yang, Z. J., & Li, S. H. (2007). Effect of straw mulching on soil, tea quality and yield of young tea plantations in hilly subtropical regions. Chinese Journal of Eco-Agriculture, 15, 60–63.
Perring, T. M., Cooper, A. D., & Rodriguez, R. J. (1993). Identification of a new whitefly species by genomic and behavioral studies. Science, 259, 74–77.
Peterson, S., Axelsen, J. A., Tybirk, K., Aude, E., & Vestergaard, P. (2006). Effects of organic farming on field boundary vegetation in Denmark. Agriculture Ecosystems Environment, 113, 302–306. doi:10.1016/j.agee.2005.09.016.
Pingali, P., Alinovi, L., & Sutton, J. (2005). Food security in complex emergencies: Enhaving food system resilience. Disasters, 29, S5–S24.
Qasem, J. R. (2006). Response of onio (Allium cepa L.) plants to fertilizers, weed competition duration, and planting times in the central Jordan Valley. Weed Biology and Management, 6, 212–220.
Qing, L., Liu, Y. H., & Ma, L. N. (2005). Preliminary identification of tobacco virus types in Wulong county. Journal Southwest Agriculture University (Natural Science), 27, 319–322.
Schmidt, M. H., Roschewitz, I., Thies, C., & Tscharntke, T. (2005). Differential effects of landscape and management on diversity and density of ground-dwelling farmland spiders. Journal Applied Ecology, 42, 281–287. doi:10.1111/j.1365-2664.2005.01014.x.
Schmitzberger, I., Wrbka, T., Steurer, B., Aschenbrenner, G., Peterseil, J., & Zechmeister, H. G. (2005). How farming styles influence biodiversity maintenance in Austrian agricultural landscapes. Agriculture Ecosystems Environment, 108, 274–290. doi:10.1016/j.agee.2005.02.009.
Schoenly, K. G., Cohen, J. E., Heong, K. L., Arida, G. S., Barrion, A. T., & Litsinger, J. A. (1996). Quantifying the impact of insecticides on food web structure of rice-arthropod populations in a Philippine Farmer’s irrigated field: A case study. In G. A. Polis & K. O. Wisemiller (Eds.), Food webs: Integration of patterns and dynamics (pp. 343–351). London: Chapman & Hall.
Shi, Y., Cheng, C., Lei, P., Wen, T., & Merrifield, C. (2011). Safe food, green food, good food: Chinese Community Supported Agriculture and the rising middle class. International Journal of Agricultural Sustainability, 9, 551–558.
Smith, P., Martino, D., Cai, Z., Gwary, D., Janzen, H., Kumar, P., McCarl, B., Ogle, S., O’Mara, F., Rice, C., Scholes, B., & Sirotenko, O. (2007). Agriculture. In B. Metz, O. R. Davidson, P. R. Bosch, R. Dave, & L. A. Meyer (Eds.), Climate change 2007: Mitigation (Contribution of the Working Group III to the Fourth Assessment Report of the Intergovernmental Panel on Climate Change). Cambridge: Cambridge University Press. http://www.mnp.nl/ipcc/pages_media/FAR4docs/final_pdfs_ar4/chapter08.pdf
Song, T. Q., Wang, K. L., Peng, W. X., Wang, J. R., Lin, X. R., Ping, Z. F., & Yu, T. (2006). Ecological effects of intercropping white clover on tea plantation in a subtropical hilly region. Acta Ecologica Sinica, 26, 3647–3655.
Steudel, B., Hector, A., Friedl, T., Lofke, C., Lorenz, M., Wesche, M., & Kessler, M. (2012). Biodiversity effects on ecosystem functioning change along environmental stress gradients. Ecology Letters, 15, 1397–1405.
Storkey, J., & Cussans, J. (2007). Reconciling the conservation of in-field biodiversity with crop production using a simulation model of weed growth and competition. Agriculture Ecosystems Environment, 122, 173–182. doi:10.1016/j.agee.2006.12.031.
Sudoi, V., Khaemba, B. M., & Wanjala, F. M. E. (1996). Influence of soil applied nitrogen (NPKS 25: 5: 5:5) on Brevipalpus phoenicis Geijskes (Acari: Tenuipalpidae) mite incidence and damage symptoms on tea. Annals of Applied Biology, 128, 13–19.
Tewary, D. K., Kumar, V., Ravindranath, S. D., & Shanker, A. (2005). Dissipation behavior of bifenthrin residues in tea and its brew. Food Control, 16, 231–237.
Theunissen, J. (1997). Application of intercropping in organic agriculture. Entomologial Research in Organic Agriculture, 15, 251–259.
Thorsted, M. D., Weiner, J., & Olesen, J. E. (2006). Above- and below-ground competition between intercropped winter wheat Triticum aestivum and -white clover Trifolium repens. Journal of Applied Ecology, 43, 237–245.
Tilman, D. (1988). Plant strategies and the dynamics and structure of plant communities. Princeton: Princeton University Press.
Tuomisto, H. L., Hodge, I. D., Riordan, P., & Macdonald, D. W. (2012). Does organic farming reduce environmental impact? A meta-analysis of European research. Journal of Environmental Management, 112, 309–320.
Uphoff, N. (2006). Report on visit to Vietnam, to review SRI progress (16 pp). Cornell International Institute for Food, Agriculture and Development (CIIFAD). http://www.sri.cals.cornell.edu/countries/vietnam/vnntutr106.pdf.
Uphoff, N. (2007). Reviewing SRI progress in Vietnam (20 pp). Cornell International Institute for Food. Agriculture and Development (CIIFAD). http://www.sri.cals.cornell.edu/countries/vietnam/vnntutr106.pdf.
Upreti, B. R., & Upreti, Y. G. (2002). Factors leading to agro-biodiversity loss in developing 1297 countries: The case of Nepal. Biodiversity and Conservation, 11, 1607–1621. doi:1298 10.1023/A:1016862200156.
Wang, G. H., Liang, Y. F., Tian, Y. H., Wang, J. L., & Zhou, G. L. (2004). Effect of chemical insecticides on the diversity of arthropods in tea garden. Journal of Tea Science, 24, 99–104.
Wu, Q. J., Xu, B. Y., Xu, W. H., Zhang, Y. J., & Zhu, G. R. (2002). Bioassays on D-C tron to Bemisia tabaci of different developmental stages. Plant Protection, 28, 11–13.
Wu, J. W., Cai, W. Z., & Hou, T. Q. (2003). Insects of tobacco and related integrated pest management in China. Beijing: China Agricultural Science and Technology Press.
Yao, F., You, M., Vasseur, L., Yang, G., & Zheng, Y. (2012). Polycultural manipulation for better regulation of planthopper populations in irrigated rice-based ecosystems. Crop Protection, 34, 104–111.
You, M. S., & Xu, Q. Y. (2000). Species composition, richness and diversity of insect communities in cruciferous fields in Fuzhou’s suburb. Journal Fujian Agriculture University, 29, 444–452.
You, M. S., Liu, Y. F., & Hou, Y. M. (2004). Agricultural biodiversity and integrated pest management. Ecology, 24, 117–122.
Zhu, X. C., Wang, Y. T., & Wang, Z. F. (2002). Tobacco diseases in China. Beijing: China Agriculture Press.
Zhao, Z. H., Ouyang, F., Meng, X. Y., Liu, J. H., He, D. H., & Ge, F. (2013). Habitat management in biological control. Chinese Journal of Applied Entomology, 50(4), 879–889.
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Vasseur, L., You, M. (2016). Facing Climate Change Through Sustainable Agriculture: Can Results from China Be Transferred to Africa?. In: Bryant, C., Sarr, M., Délusca, K. (eds) Agricultural Adaptation to Climate Change. Springer, Cham. https://doi.org/10.1007/978-3-319-31392-4_11
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