Abstract
Horticultural production is primarily involved in the intensive use of resources, such as land, water, labour and inputs such as fertilisers and pesticides. The use of such resources in a concentrated space and time has the potential to negatively impact on the local environment and worker welfare. In addition the transport of horticultural produce over long distances, particularly by air transport is known to have an impact on the global environment. The first part of the chapter outlines these threats to the environment that intensive horticulture presents and how the understanding of wider issues relating to the environment has developed over recent years. Then the methods of analysing the impact of horticulture on the environment are considered including environmental impact assessments and Life Cycle Assessment. In the second part of the chapter, the methods and strategies that are being used to minimise the effect of production on environmental degradation are considered. This includes legislation and Private Voluntary Standards such as GLOBALGAP that have incorporated environmental standards into their remit. The use of technologies that have been used to mitigate the impact of horticultural production on the environment are highlighted including greenhouse technologies, soil protection and conservation, optimal fertiliser use and Integrated Pest Management. The chapter concludes with a case study that examines the production of cut flowers in Kenya and the associated costs of air freight around the globe.
This is a preview of subscription content, log in via an institution to check access.
Access this chapter
Tax calculation will be finalised at checkout
Purchases are for personal use only
References
Anon (2003) Irrigation best practise. Water management for field vegetable crops: a guide for vegetable growers. Department for Environment, Food and Rural Affairs, London
Anon (2006) BS EN ISO 14040:2006 Environmental management Life cycle assessment—Principles and framework. BSI, London
Anon (2010) International energy statistics. U.S Energy Information Administration. http://www.eia.gov/cfapps/ipdbproject/iedindex3.cfm?tid=90&pid=45&aid=8&cid=regions&syid=1980&eyid=2010&unit=MMTCD. Accessed 20 Jan 2013
Anon (2011a) PAS 2050 specification for the assessment of the life cycle greenhouse gas emissions of goods and services. BSI, London
Anon (2011b) The town and country planning (Environmental Impact Assessment) regulations 2011 No. 1824, The National Archives. http://www.legislation.gov.uk/uksi/2011/1824/pdfs/uksi_20111824_en.pdf. Accessed 21 Jan 2013
Anon (2012a) Agriculture and horticulture. Introducing energy saving opportunities for farmers and growers. The Carbon Trust, London
Anon (2012b) European commission statistics. http://ec.europa.eu. Accessed 21 Jan 2013
Australian Council of Deans of Agriculture (2009) http://www.csu.edu.au/special/acda/. Accessed 15 June 2012
Bajwa WI, Kogan M (2003) IPM adoption by the global community. pp 97–107. In: Maredia KM, Dakouo D, Mota-Sanchez D (eds) Integrated pest management in the global arena. CABI Publishing, UK, 512 p
Basinger AR, McKenney CB, Auld D (2009) Competencies for a United States horticulture undergraduate major: a national Delphi study. HortTechnol 19(2):452–458
Bergstrand K-JI (2010) Approaches for mitigating the environmental impact of greenhouse horticulture. PhD thesis. Swedish University of Agricultural Sciences, Alnarp
Borot de Battislini A, MacGregor J, Graffham A (eds) (2009) Standard bearers: horticultural exports and private standards in Africa. International Institute for Environment and Development (IIED), London. ISBN:978-1-84309-710
Bridges E, Van Baren J (1997) Soil: an overlooked, undervalued and vital part of the human environment. Environmentalist 17:25–30
Burr P, Hillary R (2011) An Evidence-based study into the benefits of EMSs for SMEs. WYG environment for the Department of Environment, Food & Rural Affairs (Defra), UK
Carson R (1962) Silent spring. Houghton Mifflin, Boston
Cary J, Roberts A (2011) The limitations of environmental management systems in Australian agriculture. J Environ Manage 92(3):878–885
Chapagain AK, Orr S (2009) An improved water footprint methodology linking global consumption to local water resources: a case of Spanish tomatoes. J Environ Manage 90:1219–1228
Cooper J, Dobson H (2007) The benefits of pesticides to mankind and the environment. Crop Prot 26:1337–1348
DEFRA (2006) Pesticides—code of practice for using plant protection products. Department for Environment, Food and Rural Affairs, London
DEFRA (2010) Fertiliser manual. RB209, 8th edn. Department for Environment, Food and Rural Affairs, London
Edwards-Jones G, Hounsome B, Mila I Canals L, York L, Plassmann K, Jones D (2008) Vulnerability of exporting nations to the development of a carbon label in the United Kingdom. Environ Sci Policy 12(4):479–490 (However energy savings of 56 MJ/kg of produce would be achieved by sea freight compared to airfreight from Kenya)
Falloon P, Betts R (2010) Climate impacts on European agriculture and water management in the context of adaptation and mitigation: the importance of an integrated approach. Sci Total Environ 408(23):5667–5687
Fischer G, Tubiello F, van Velthuizen H, Wiburg D (2007) Climate change impacts on irrigation water requirements: effects of mitigation, 1990-2080. Technol Forecast Soc Change 74:1083–1107
Flint ML (2012) IPM in practice: principles and methods of integrated pest management. University of California Agricultural and Natural Resources. Publication 3418. pp 292
Garside B, MacGregor J, Vorley B (n.d). Review of food miles, carbon, and African horticulture: environmental and developmental issues. COLEACP. http://pip.coleacp.org/files/documents/PIP%20food%20miles%20report%20for%20web.pdf. Accessed 20 Jan 2013
Gunningham N (2007) Incentives to improve farm management: EMS, supply-chains and civil society. J Environ Manage 82(3):302–310
Harper D, Morrison E, Macharia M, Mavuti K, Upton C (2011) Lake Naivasha, Kenya: ecology, society and future. Freshwater Reviews 4(2):89–114
Henao J, Baanante C (2006) Agricultural production and soil nutrient mining in Africa: Implication for resource conservation and policy development. IFDC Tech. Bull. International Fertilizer Development Center. Muscle Shoals
Hoekstra A (2011) The water footprint assessment manual: setting the global standard. Routledge, London
Ingram D, Fernandez T (2012) Life cycle assessment: a tool for determining the environmental impact of horticultural crop production. HortTechnol 22(3):275–279
Knobeloch L, Salna B, Hogan A, Postle J, Anderson A (2000) Blue babies and nitrate-contaminated well water. Environ Health Perspect 108(7):675–678
Knox J, Kay M, Weatherhead E (2012) Water regulation, crop production, and agricultural water management-understanding farmer perspectives on irrigation efficiency. Agric Water Manage 108:3–8
Lansink A, Bezlepkin I (2003) The effect of heating technologies on CO2 and energy efficiency of Dutch greenhouse firms. J Environ Manage 68(1):73–82
Lillywhite R, Chandler D, Grant W, Lewis K, Firth C, Schmutz U, Halpin D (2007) Environmental footprint and sustainability of horticulture (including potatoes)—a comparison with other agricultural sectors. Report prepared by University of Warwick for DEFRA, UK
National Research Council (2000) Clean coastal waters: understanding and reducing the effects of nutrient pollution. National Academy Press, Washington, DC. pp 405
PCPB (2011) Registered pest control products for use in Kenya, 6th edn. PCPB, Nairobi
Pimentel D (2006) Soil erosion: a food and environmental threat. Environ Dev Sustain 8:119–137
Poncet C, Mailleret L, Desneux N, Muller MM, Bout A, Brun J, Pizzol J, Boll R, Bresch C, Parolin P, Fatnassi H (2012) The ecological approach of greenhouse agro-ecosystem: practical interest for IPM. Acta Hort 927:173–186
Ramos M, BenÃtez E, GarcÃa P, Robles A (2010) Cover crops under different managements vs. frequent tillage in almond orchards in semiarid conditions: Effects on soil quality. Appl Soil Ecol 44:6–14
Turner N (1990) Plant water relations and irrigation management. Agric. Water Manage 17:59–73
Wainwright H (2008) Food miles and horticultural trade (guest editorial). J Hortic Sci Biotechnol 83:143
Wainwright H (2009). Wetland as a solution for waste water. Fruit Veg Tech 9(2):23–25
Wainwright H, Labuschagne L (2009) Crop Protection and The Kenyan flower Industry. Outlooks Pest Manage 20(4):153–157
Wakrim R, Wahbi S, Tahi H, Aganchich B, Serraji R (2005) Comparative effects of partial root drying (PRD) and regulated deficit irrigation (RDI) on water relations and water use efficiency in common bean (Phaseolus vulgaris L.). Agric Ecosys Environ 106:275–287
Water Resource Group (2012) Background, impact and the way forward: briefing report for the world economic forum annual meeting 2012 in Davos-Klosters. Davos, Switzerland
Watkiss P (2005) The validity of food miles as an indicator of sustainable development. DEFRA, London
Wolosin R (2006) El Milagro de Almeria, España: a political ecology of landscape change and greenhouse agriculture. MA Thesis. The University of Montana, Montana
Wrangler Z (2006). Sub-Saharan African horticultural exports to the UK and climate change: a literature review, Fresh Insights No 2. International Institute for Environment and Development
Author information
Authors and Affiliations
Corresponding author
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2014 Springer Science+Business Media Dordrecht
About this chapter
Cite this chapter
Wainwright, H., Jordan, C., Day, H. (2014). Environmental Impact of Production Horticulture. In: Dixon, G., Aldous, D. (eds) Horticulture: Plants for People and Places, Volume 1. Springer, Dordrecht. https://doi.org/10.1007/978-94-017-8578-5_15
Download citation
DOI: https://doi.org/10.1007/978-94-017-8578-5_15
Published:
Publisher Name: Springer, Dordrecht
Print ISBN: 978-94-017-8577-8
Online ISBN: 978-94-017-8578-5
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)