Slide 1 Sustainable Agricultural Management Practices for Nurseries Salvatore Mangiafico Rutgers Cooperative Extension Environmental and Resource Management Agent This presentation will discuss some aspects of the subject of sustainable nursery production. It will cover the concept of sustainability in agriculture, a few of current topics relevant to the nursery industry, and couple of resources available to growers on the topic of sustainability.
Slide 2 The Concept of Sustainability The concept of sustainability in agriculture.
Slide 3 profit, people, and planet or the triple bottom line this is one common concept of sustainability in relation to agriculture photo: adapted from K.A. Williams, D.J. Merhaut, and S.S. Mangiafico. 2011. Nutrient management: Integrating irrigation, root media, and fertilization. In Water and Nutrient Management for Floriculture Crops. University of California ANR Press. The term sustainability is often defined as meeting the needs of today without compromising the needs of the future, or sometimes of future generations. One common way to conceptualize sustainability in agricultural production is to see at the intersection of three spheres: the economic, the social, and the environmental. Or profit, people, and planet. And sometimes called the triple bottom line. Sometimes people think of sustainability as doing things a little bit better, keeping in mind considerations of environmental consequences and social concerns, and considering how today s production and business decisions influence the viability of the nursery operation in the future.
Slide 4 profit Some thoughts: would decisions for long-term profitability and short-term profitability be different? investing in equipment or knowledge... will resources be more expensive in the future? conserving resources equals conserving money: water, fertilizer, pesticides, energy, labor better crops equals better profit if labor is a large cost, how can it be made more efficient? alternative crops photo: adapted from K.A. Williams, D.J. Merhaut, and S.S. Mangiafico. 2011. Nutrient management: Integrating irrigation, root media, and fertilization. In Water and Nutrient Management for Floriculture Crops. University of California ANR Press. Economic sustainability involves considering long term profitability. While almost every aspect of a business s operation plays into its profitability, a few aspects of economic sustainability include the efficient use of resources and labor, the production of profitable crops, and the interplay of short-term and long-term profitability. One question from this perspective is if decisions for long-term profitability would be different than those for short-term profitability. As a separate consideration, if resources such as fertilizer, water, pesticides, energy, and labor will become more expensive in the future, investing in equipment or knowledge to require less of these resources may be profitable.
Slide 5 people Some thoughts: includes all the people outside your operation that are affected by what you do usually: workers pay and living conditions, social justice, and how agriculture contributes to the economic life and agrarian character of the community. products contribute beauty and enhance the lives of the endconsumers photo: adapted from K.A. Williams, D.J. Merhaut, and S.S. Mangiafico. 2011. Nutrient management: Integrating irrigation, root media, and fertilization. In Water and Nutrient Management for Floriculture Crops. University of California ANR Press. Social sustainability includes considering how your operation affects all people outside your operation. Typically in discussions of sustainability in agriculture, social sustainability is mostly concerned with workers pay and living conditions, social justice, and also how agriculture contributes to the economic life and agrarian character of a community. In ornamental plant production, an additional consideration is the ways in which the products contribute to beauty and enhance the lives of then end-consumers.
Slide 6 planet Some thoughts: some aspects are closely tied to good production practices: nutrient management, IPM, and irrigation scheduling water use and water pollution root medium materials soil erosion prevention other aspects may be external to production (buffers and cover crops to prevent erosion, runoff treatment and reuse). regulations marketing opportunities photo: adapted from K.A. Williams, D.J. Merhaut, and S.S. Mangiafico. 2011. Nutrient management: Integrating irrigation, root media, and fertilization. In Water and Nutrient Management for Floriculture Crops. University of California ANR Press. Environmental sustainability in agriculture usually focuses on water conservation and water pollution prevention, as well as soil conservation. For container-grown crops, considerations of the sustainability of soilless media materials is sometimes discussed, with alternative materials such as wood chips in the Southeast U.S. considered. Some aspects of environmental sustainability are related to good production practices such as proper nutrient management, integrated pest management, and good irrigation practices. Other aspects may be somewhat external to crop production, such as recycling tailwater and using vegetated buffers to treat runoff and stormwater.
Slide 7 luckily, to a large extent, each supports the others... Example... efficient use of water and fertilizers To a large extent, these three aspects of sustainable production coincide with one another: for example, the efficient use of water and fertilizers promotes the profitability of an operation, both in keeping down costs and producing better crops. The efficient use of water and fertilizer also conserve water resources and minimize the risk of nutrient runoff. Together these economic and environmental benefits enhance the local community through contributing economically and preserving local resources.
Slide 8 profit, people, and planet or the triple bottom line the whole concept again... all decisions are considered in light of their relations to other components and in light of the future photo: adapted from K.A. Williams, D.J. Merhaut, and S.S. Mangiafico. 2011. Nutrient management: Integrating irrigation, root media, and fertilization. In Water and Nutrient Management for Floriculture Crops. University of California ANR Press. Putting these three aspects of sustainability together, sustainable nursery production is found at the intersection of economic, social, and environmental sustainability. Here decisions are made considering how today s production and business decisions influence the viability of the nursery operation in the future as well as considering the people and environment affected by these decisions.
Slide 9 Current Topics in Sustainability Current topics in sustainability.
Slide 10 The concept of sustainability could apply to just about every aspect of production and management... - crop selection - water / fertilizer / pesticide management - energy - labor - marketing - soil conservation / pollutant runoff / stormwater Salvatore Mangiafico The concept of sustainability could apply to just about every aspect of production and management. Some topics that are sometimes discussed with the idea of sustainability include crop selection for better profitability; good water, fertilizer, and pesticide management; energy conservation, especially considering rising energy costs; labor supply and efficiency; marketing; and soil conservation, runoff prevention, and stormwater management.
Slide 11 Water conservation - In NJ, high population density, residential landscapes, industry, agriculture, and environmental and recreational uses together create large demand - Outdoor water use is a significant portion of residential water use, particularly in summer - Total freshwater use for New Jersey in 2005 averaged 1,930 million gallons per day. - Public water supply combined with domestic well use totaled 1,038 million gallons per day, or about 120 gallons per person per day Salvatore Mangiafico Mangiafico, Obropta, Rossi-Griffin, Higgins, "Landscaping for water conservation", Rutgers Cooperative Extension One current topic of interest for the nursery industry is water conservation and availability. Water resources in New Jersey are strained by a combination of large population, residential landscapes, agriculture, industry, and environmental and recreational uses, despite being a relatively water-rich state. Outdoor water use, including for landscape irrigation, is a significant portion of residential water use, particularly in summer months. Total freshwater use New Jersey in 2005 averaged 1,930 million gallons per day, with the portion of this for public water supply and domestic well use being 1,038 million gallons per day. Given a population of about 9 million people, this amounts to about 120 gallons per person per day for just the domestic and well use.
Slide 12 Water conservation consumptive and nonconsumptive uses... Mangiafico, Obropta, Rossi-Griffin, Higgins, "Landscaping for water conservation", Rutgers Cooperative Extension This table is adapted from a U.S. Geological Survey publication, and was developed for a Rutgers Cooperative Extension bulletin. It shows the water use in New Jersey, in 2005, in million gallons per day. Public supply and domestic well the two columns on the left total 1,038 million gallons per day, or more than half of the total. The other notably large figure in the table is for thermo-electric power second from the right with 663 million gallons per day. Crop irrigation used 95 million gallons per day, or about 5 percent. When interpreting these values, it is important to appreciate that a distinction is often made between consumptive use of water and non-consumptive uses. Much of industrial, thermo-electric, and indoor domestic use of water is considered non-consumptive, since the majority of water is relatively quickly returned to a river or other surface water. In contrast, crop irrigation and landscape irrigation is considered consumptive water use, since the majority of the water evaporates to the atmosphere.
Slide 13 Water conservation - Historically, water withdrawals have caused a lowering of aquifer levels and in some cases problems of saltwater intrusion in the state. Since 1998, some aquifers have recovered while others continue to be further depleted. - Municipalities have had drought-dependent watering restrictions - NJDEP is developing model ordinance for outdoor water conservation. Salvatore Mangiafico Mangiafico, Obropta, Rossi-Griffin, "A Lawn Care Education Program to Address Water Conservation and Water Pollution Prevention in New Jersey", Journal of the National Association of County Agricultural Agents In New Jersey, water withdrawals over the last several decades have caused a lowering of aquifer levels and in some cases issues of saltwater intrusion into groundwater supplies. Since 1998, some aquifers have recovered, but in other areas they have not improved. Municipalities often impose watering and other water-use restrictions during drought conditions, and the state Department of Environmental Protection is considering developing a model ordinance that municipalities can adopt to restrict landscape irrigation throughout the year. These observations underscore the fact that water conservation will continue to be a resource management issue in New Jersey.
Slide 14 Water conservation Importance to the nursery industry - if the cost of water rises or there are supply limitations - good water management equals better nutrient management and better crops - public perception Salvatore Mangiafico The issue of water resources may directly impact the nursery industry if the cost of water rises or if there are supply limitations. Judicious water use benefits the industry since good water management leads to better nutrient management and better crops. Furthermore, the industry benefits from positive public perception of the industry as a good neighbor who conserves local water resources.
Slide 15 Water conservation Nursery industry actions - efficient irrigation systems and proper rates - rainwater harvesting - tailwater reuse - reclaimed water as a future solution (treated water from wastewater treatment plants) - industry involvement in government and public discussions Salvatore Mangiafico Industry actions that conserve water include: efficient irrigation systems and proper irrigation rates; rainwater harvesting; tailwater reuse; the possibility of reclaimed water use; and industry involvement in government and public discussions.
Slide 16 Water pollution prevention - Concern for potential of nutrient and pesticide losses - States are beginning to enact legislation or regulations that affect agricultural runoff. - Legislation regarding water use and/or quality has been implemented in California, Delaware, Florida, Maryland, Michigan, North Carolina, Oregon, and Texas. Salvatore Mangiafico Lea-Cox, et al. "A Nursery and Greenhouse Online Knowledge Center: Learning Opportunities for Sustainable Practice", HortTechnology, June 2010 20(3) Fernandez et al., 2009, "NCDC216: A New Multistate Group for Water Management and Quality for Ornamental Crop Production and Health", SNA Research Conference Vol. 54 A second topic of interest to the nursery industry is water pollution prevention. In several areas of the country, there has been concern about the potential for nutrient and pesticide losses from agricultural lands including those in nursery production. This had lead to interest in laws or regulations in several states to prevent water pollution related to agriculture.
Slide 17 Water pollution prevention - In New Jersey, many lakes and rivers are listed as impacted for phosphorus. - (Phosphorus could come from a variety of sources including home and agricultural fertilizers, wildlife wastes, treated wastewater, etc.) - Nitrogen is also a concern for coastal waters like Barnegat Bay. - (Water quality problems in Barnegat Bay usually blamed on increases in residential development in the watershed.) - Pesticides in runoff from both residential and agriculture have been studied nationally and in certain specifically areas. Salvatore Mangiafico In New Jersey, several lakes and rivers are impacted by phosphorus pollution. Phosphorus can come from a variety of sources including home and agricultural fertilizers, wildlife wastes, treated wastewater, and many other sources. Nitrogen is a pollutant of concern in coastal waterbodies including Barnegat Bay and can also come from fertilizers among many other sources. Water quality problems in Barnegat Bay are usually blamed on increases in residential development in the watershed development in recent decades. The potential for pesticide runoff from agricultural land and residential development has been investigated nationally and in specific studies and areas.
Slide 18 Water pollution prevention - Mechanisms exist to improve impacted waters: TMDL process, derived from the Clean Water Act - Locally, the upper sections of the Cohansey River and Salem River are listed by NJDEP as priority watersheds, impacted by phosphorus and fecal contamination. Salvatore Mangiafico Legal mechanisms exist to attempt to improve impacted waters. These include the Total Maximum Daily Load (TMDL) process where states determine the reductions of pollutants needed for rivers and lakes to meet their designated uses. While states historically have used education and voluntary approaches to address non-point source pollution, including that from agriculture, regulatory approaches consistent with state law are possible.. Locally, in Cumberland and Salem Counties, the upper sections of the Cohansey River and Salem River are both impacted by phosphorus and fecal contamination and are listed by the state Department of Environmental Protection as priority watersheds.
Slide 19 Water pollution prevention Nursery actions: - irrigation management is key to control nutrient runoff - source control BMPs: nutrient management and IPM - runoff treatment and capture: tailwater recycling, vegetated filters, bio-retention, etc. Salvatore Mangiafico Nursery industry actions to prevent water pollution include: good irrigation management to minimize nutrient leaching and runoff; good nutrient management and integrated pest management; and the treatment of runoff and stormwater through tailwater recycling, vegetated filters, and other methods.
Slide 20 Other current local topics Impervious cover - greenhouses and temporary structures, compacted soils, roads - concepts of connected and disconnected impervious cover Salvatore Mangiafico One other current topic of interest to the nursery industry is concern about the potential for impervious cover at nursery sites, including greenhouses and temporary structures, compacted soils, and roads. In evaluating the amount of impervious cover at nursery sites, it s important to consider the distinction between connected impervious cover where impervious surfaces like greenhouse roofs and roads drain directly to other impervious surfaces and then to stormwater conveyances like ditches and storm drains, and can contribute significantly to stormwater amounts, and disconnected impervious cover where impervious surfaces drain to pervious areas like grassed alleys or crop areas, and thereby contribute to stormwater runoff far less.
Slide 21 Other current local topics Soil erosion - Nursery land typically stabilized with grassed alleyways, shell or gravel cover, etc. Salvatore Mangiafico One final current topic of interest to the nursery industry is the prevention of soil erosion. Land in nursery production is usually stable through the use of grassed alleyways, perennial crops, shell or gravel cover on roads, and other practices.
Slide 22 Some Resources As a final subject in this presentation, a few resources available to growers who are interested in exploring sustainable production in more detail.
Slide 23 NJAES Sustainable Nursery Production website http://njaes.rutgers.edu/nursery/ One resource is the Rutgers Experiment Station sustainable nursery production website.. http://njaes.rutgers.edu/nursery/
Slide 24 Subject areas on this site include a list of expert faculty and publications.
Slide 25 Posted publications include guides specifically on sustainable practices,
Slide 26 and those on other topics such as irrigation and nutrient management.
Slide 27 Protecting Natural Resources at Field Nurseries: Sustainable Agricultural Management Practices for Soil, Water, Nutrient, and Pesticide Conservation http://njaes.rutgers.edu/nursery/documents/protectin g Natural Resources at Field Nurseries.pdf One document available on this site is a manual for field nurseries covering sustainable practices.. http://njaes.rutgers.edu/nursery/documents/protecting Natural Resources at Field Nurseries.pdf
Slide 28 Its cover.
Slide 29 And a few pages from it.
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Slide 31 Salvatore Mangiafico County Environmental and Resource Management Agent Cooperative Extension of Salem County 51 Cheney Rd, Ste. 1 Woodstown, NJ 08098 856-769-0090 mangiafico@njaes.rutgers.edu http://salem.rutgers.edu/nre http://salem.rutgers.edu/nre/. http://salem.rutgers.edu/nre/contact.html