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Plastic mulch

November 30, 2023

Plastic mulch is a product used in plasticulture in a similar fashion to mulch, to suppress weeds and conserve water in crop production and landscaping. Certain plastic mulches also act as a barrier to keep methyl bromide, both a powerful fumigant and ozone depleter, in the soil. Crops grow through slits or holes in thin plastic sheeting. Plastic mulch is often used in conjunction with drip irrigation. Some research has been done using different colors of mulch to affect crop growth. Use of plastic mulch is predominant in large-scale vegetable growing, with millions of acres cultivated under plastic mulch worldwide each year.[1]

Blueberry plants growing through plastic mulch

Disposal of plastic mulch is an environmental problem. Technologies exist to provide for the recycling of used/disposed plastic mulch into viable plastic resins for re-use in the plastics manufacturing industry.[2] However these methods are not very effective due to contamination by agrochemicals of the plastic.[3] Other concerns include residual microplastics in the soil which can have negative effects on soil ecologies, including microbes and earthworms.[3][4]

History edit

The idea of using polyethylene film as mulch in plant production saw its beginnings in the mid-1950s. Dr. Emery M. Emmert of the University of Kentucky was one of the first to recognize the benefits of using LDPE (low-density polyethylene) and HDPE (high-density polyethylene) film as mulch in vegetable production. Emmert also wrote on other topics such as the use of plastic for greenhouses instead of glass and plastic in field high tunnels. Approximately 2,500 square miles (6,500 km2) of agricultural land utilize polyethylene mulch and similar row covers for crop production in the world. Laying plastic polythene (mulch) down over mounds formed in the soil was also pioneered in New Zealand in the mid fifties by strawberry growers in the Auckland area. By 1960-61 all strawberries grown commercially in New Zealand were grown through black polythene usually laid by hand. The plastic promoted growth, conserved moisture brought on early fruiting and restricted weed infestation. The earliest polythene laying machines were in use in New Zealand by the mid 1960s and were very similar to the machines sold today. The very first machines were designed by growers and built by small engineering/fabrication workshops, usually under the careful guidance and supervision of the farmer. Each machine for many years was generally similar to the last, with the occasional modification to improve performance.

Benefits edit

The use of plastic mulches along with the use of drip irrigation has many benefits such as:

Soil temperature edit

The use of plastic mulch alters soil temperature. Dark mulches and clear mulches applied to the soil intercept sunlight and warm the soil, allowing earlier planting as well as encouraging faster growth early in the growing season. White mulch reflects heat from the sun, effectively reducing soil temperature. This reduction in temperature may help establish plants in mid-summer when cooler soil might be required.[5]

Soil moisture retention edit

Plastic mulches reduce the amount of water lost from the soil due to evaporation. This means less water will be needed for irrigation. Plastic mulches also aid in evenly distributing moisture to the soil, which reduces plant stress.[citation needed]

Weed management edit

Plastic mulches prevent sunlight from reaching the soil which can inhibit most annual and perennial weeds. Clear plastics prevent weed growth. Holes in the mulch for plants tend to be the only pathway for weeds to grow.

Reduction in the leaching of fertilizer edit

The use of drip irrigation in conjunction with plastic mulch allows one to reduce leaching of fertilizers. Using drip irrigation eliminates the use of flood and furrow irrigation that applies large quantities of water to the soil, which in turn tends to leach nitrogen and other nutrients to depths below the root zone. Drip irrigation applies lower amounts of water with fertilizers injected and thus these fertilizers are applied to the root zone as needed. This also reduces the amount of fertilizer needed for adequate plant growth when compared to broadcast fertilization.

Improved crop quality edit

Plastic mulches keep ripening fruits off of the soil. This reduced contact with the soil decreases fruit rot as well as keeps the fruit and vegetables clean. This is beneficial for the production of strawberries, for example.[6]

Reduction in soil compaction edit

See also: soil compaction (agriculture)

The plastic mulch covering the soil decreases the crusting effect of rain and sunlight. The reduction in weed quantity means a decreased need for mechanical cultivation. Weed control between beds of plastic can be done using directly applied herbicides and through mechanical means. The soil underneath the plastic mulch stays loose and well aerated, with the mulch protecting the soil it covers from erosion.[1]

Reduction in root damage edit

The use of plastic mulch creates a practically weed-free area around the plant, removing the need for cultivation except between the rows of plastic. Root damage associated with cultivation is therefore eliminated. Due to these factors, the use of plastic mulch can lead to an improvement in the overall growth of the plant.[7]

Disadvantages edit

There are many disadvantages to using plastic mulches in crop production as well.

Cost edit

The benefits from using plastic mulch come at a higher cost than planting in bare soil. These costs include equipment, the plastic film used as the mulch, transplanters designed for plastic beds, and additional labor during installation and removal of mulch films. Specialized mulch application equipment must be used to install plastic mulch beds into a field. These machines shape the soil and apply the plastic to the prepared soil. Transplanters designed for plastic mulch can be used to plant the desired crop. Hand transplanting is an option, but this is rather inefficient. The removal of plastic mulch also contributes to a higher cost through additional labor and equipment needed. Specialized designed undercutting equipment can be used to remove the plastic from the field after harvest.

Environmental concerns edit

Further information: plastic pollution, microplastic, and soil contamination

If conventional plastics (e.g. PE) are used as mulch films, they are likely to accumulate in soil, since the removal and the correct disposal of these plastics are technically and economically burdensome.[8] This accumulation could cause both crop yield reduction and environmental problems.[9]Biodegradable polymers are polymers that can be degraded by the naturally occurring microbial community in an environmental system. They provide a more sustainable alternative to conventionally used plastics for mulch films. Providing the same benefits as detailed above, the problem of plastic accumulation in soils could be solved.[10] Aliphatic polyesters and aliphatic-aromatic co-polyesters have shown to be promising groups of biodegradable polymers.[11]

Application edit

 
Raised vegetable beds covered in plastic mulch.

The use of plastic mulch requires a unique application process to ensure proper placement of the plastic film. This application process begins with preparing the field the same way one would for a flat seed bed. The bed must be free of large soil clods and organic residue. A machine called a plastic layer or a bed shaper is pulled over the field creating a row of plastic mulch covering a planting bed. These beds can be a flat bed which simply means the surface of the plastic mulch is level with the inter-row soil surface. Machines that form raised beds create a plastic surface higher than the inter-row soil surface. The basic concept of the plastic bed shaper is a shaping box which creates the bed, that is then covered by plastic via a roller and two coulters that cover the edges of the plastic film to hold the plastic the soil's surface. These plastic layers also place the drip irrigation line under the plastic while the machine lays the plastic. It is somewhat important that the plastic is rather tight. This becomes important in the planting process.

Planting edit

Planting also requires specialized planting equipment. The most common planting equipment is a waterwheel type transplanter. The waterwheel transplanter utilizes a rotating drum or drums with spikes at set intervals. The drum or drums have a water supply that continuously fills the drum with water. The transplanter rolls the spiked drum over the bed of plastic. As the drum presses a spike into the plastic, a hole is punched and water flows into the punched hole. A rider on the transplanter can then place a plant in the hole. These drums can have multiple rows and varied intervals to create the desired spacing for that particular crop.

See also edit

References edit

  1. ^ a b Bradney, Lauren; Wijesekara, Hasintha; Bolan, Nanthi S.; Kirkham, M. B. (2020). "Sources of Particulate Plastics in Terrestrial Ecosystems". Particulate Plastics in Terrestrial and Aquatic Environments (1 ed.). CRC Press. p. 9. ISBN 978-0-367-51140-1.
  2. ^ Plastic mulch film recycling process 2008-05-18 at the Wayback Machine Agricultural plastics recycling website, accessed 07.03.08
  3. ^ a b "Why food's plastic problem is bigger than we realise". www.bbc.com. Retrieved 2021-03-27.
  4. ^ Nex, Sally (2021). How to garden the low carbon way: the steps you can take to help combat climate change (First American ed.). New York. ISBN 978-0-7440-2928-4. OCLC 1241100709.{{cite book}}: CS1 maint: location missing publisher (link)
  5. ^ "Beyond the colour of mulch (White/ Black mulch) - Agriplastics Community". 31 August 2018.
  6. ^ Deschamps, Stephen S.; Whitaker, Vance M.; Agehara, Shinsuke (2019-01-03). "White-striped plastic mulch reduces root-zone temperatures during establishment and increases early season yields of annual winter strawberry". Scientia Horticulturae. 243: 602–608. doi:10.1016/j.scienta.2018.09.018. ISSN 0304-4238. S2CID 91724681. Retrieved 2022-01-20.
  7. ^ "What Is Mulch? – Important Things You Should Know - The Detail Guys". 2021-06-18. Retrieved 2022-10-09.
  8. ^ Kyrikou, I., & Briassoulis, D. (2007). "Biodegradation of agricultural plastic films: a critical review". Journal of Polymers and the Environment. 15 (2): 125–150. doi:10.1007/s10924-007-0053-8. S2CID 195331133. One major drawback of most polymers used in agriculture is the problem with their disposal, following their useful lifetime. Non-degradable polymers, being resistive to degradation (depending on the polymer, additives, conditions etc) tend to accumulate as plastic waste, creating a serious problem of plastic waste management.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  9. ^ Rillig, M. C. (2012). "Microplastic in terrestrial ecosystems and the soil?". Environmental Science & Technology. 46 (12): 6453–6454. Bibcode:2012EnST...46.6453R. doi:10.1021/es302011r. PMID 22676039.
  10. ^ Tokiwa, Y., Calabia, B. P., Ugwu, C. U., & Aiba, S. (2009). "Biodegradability of plastics". International Journal of Molecular Sciences. 10 (9): 3722–3742. doi:10.3390/ijms10093722. PMC 2769161. PMID 19865515.{{cite journal}}: CS1 maint: multiple names: authors list (link)
  11. ^ Müller, R. J. (2006). "Biological degradation of synthetic polyesters—enzymes as potential catalysts for polyester recycling". Process Biochemistry. 41 (10): 2124–2128. doi:10.1016/j.procbio.2006.05.018.

Further reading edit

  • Hochmuth, G. (1998). "What to do with all that mulch?". Amer. Veg. Grower. 46 (4): 45.
  • Lamont, W. J. Jr. (1993). "Plastic mulches for the production of vegetable crops". HortTechnology. 3 (1): 35–39. doi:10.21273/HORTTECH.3.1.35.
  • Marr, C.W. 1993. Plastic Mulches for Vegetables. Kansas State University. October: 1-3.
  • McCraw, D. Motes, J.E. 2007. Use of Plastic Mulch and Row Covers in Vegetable Production. Oklahoma Cooperative Extension Fact Sheets. 1-5.
  • Rice, P. J.; et al. (2001). "Runoff loss of pesticides and soil: A comparison between vegetative mulch and plastic mulch in vegetable production systems". J. Environ. Qual. 30 (5): 1808–1821. doi:10.2134/jeq2001.3051808x. PMID 11577890.
  • Steinmetz, Z.; Wollmann, C.; Schaefer, M.; Buchmann, C.; David, J.; Tröger, J.; Muñoz, K.; Frör, O.; Schaumann, G.E. (2016). "Plastic mulching in agriculture: Trading short-term agronomic benefits for long-term soil degradation?". Sci. Total Environ. 550: 690–705. Bibcode:2016ScTEn.550..690S. doi:10.1016/j.scitotenv.2016.01.153. PMID 26849333.
  • Wittwer, S. H. (1993). "World-wide use of plastics in horticultural production". HortTechnology. 3 (1): 6–19. doi:10.21273/HORTTECH.3.1.6.

External links edit

  Media related to plastic mulch at Wikimedia Commons

November 30, 2023
plastic, mulch, this, article, needs, additional, citations, verification, please, help, improve, this, article, adding, citations, reliable, sources, unsourced, material, challenged, removed, find, sources, news, newspapers, books, scholar, jstor, january, 20. This article needs additional citations for verification Please help improve this article by adding citations to reliable sources Unsourced material may be challenged and removed Find sources Plastic mulch news newspapers books scholar JSTOR January 2013 Learn how and when to remove this template message Plastic mulch is a product used in plasticulture in a similar fashion to mulch to suppress weeds and conserve water in crop production and landscaping Certain plastic mulches also act as a barrier to keep methyl bromide both a powerful fumigant and ozone depleter in the soil Crops grow through slits or holes in thin plastic sheeting Plastic mulch is often used in conjunction with drip irrigation Some research has been done using different colors of mulch to affect crop growth Use of plastic mulch is predominant in large scale vegetable growing with millions of acres cultivated under plastic mulch worldwide each year 1 Blueberry plants growing through plastic mulchDisposal of plastic mulch is an environmental problem Technologies exist to provide for the recycling of used disposed plastic mulch into viable plastic resins for re use in the plastics manufacturing industry 2 However these methods are not very effective due to contamination by agrochemicals of the plastic 3 Other concerns include residual microplastics in the soil which can have negative effects on soil ecologies including microbes and earthworms 3 4 Contents 1 History 2 Benefits 2 1 Soil temperature 2 2 Soil moisture retention 2 3 Weed management 2 4 Reduction in the leaching of fertilizer 2 5 Improved crop quality 2 6 Reduction in soil compaction 2 7 Reduction in root damage 3 Disadvantages 3 1 Cost 3 2 Environmental concerns 4 Application 5 Planting 6 See also 7 References 8 Further reading 9 External linksHistory editThe idea of using polyethylene film as mulch in plant production saw its beginnings in the mid 1950s Dr Emery M Emmert of the University of Kentucky was one of the first to recognize the benefits of using LDPE low density polyethylene and HDPE high density polyethylene film as mulch in vegetable production Emmert also wrote on other topics such as the use of plastic for greenhouses instead of glass and plastic in field high tunnels Approximately 2 500 square miles 6 500 km2 of agricultural land utilize polyethylene mulch and similar row covers for crop production in the world Laying plastic polythene mulch down over mounds formed in the soil was also pioneered in New Zealand in the mid fifties by strawberry growers in the Auckland area By 1960 61 all strawberries grown commercially in New Zealand were grown through black polythene usually laid by hand The plastic promoted growth conserved moisture brought on early fruiting and restricted weed infestation The earliest polythene laying machines were in use in New Zealand by the mid 1960s and were very similar to the machines sold today The very first machines were designed by growers and built by small engineering fabrication workshops usually under the careful guidance and supervision of the farmer Each machine for many years was generally similar to the last with the occasional modification to improve performance Benefits editThe use of plastic mulches along with the use of drip irrigation has many benefits such as Soil temperature edit The use of plastic mulch alters soil temperature Dark mulches and clear mulches applied to the soil intercept sunlight and warm the soil allowing earlier planting as well as encouraging faster growth early in the growing season White mulch reflects heat from the sun effectively reducing soil temperature This reduction in temperature may help establish plants in mid summer when cooler soil might be required 5 Soil moisture retention edit Plastic mulches reduce the amount of water lost from the soil due to evaporation This means less water will be needed for irrigation Plastic mulches also aid in evenly distributing moisture to the soil which reduces plant stress citation needed Weed management edit Plastic mulches prevent sunlight from reaching the soil which can inhibit most annual and perennial weeds Clear plastics prevent weed growth Holes in the mulch for plants tend to be the only pathway for weeds to grow Reduction in the leaching of fertilizer edit The use of drip irrigation in conjunction with plastic mulch allows one to reduce leaching of fertilizers Using drip irrigation eliminates the use of flood and furrow irrigation that applies large quantities of water to the soil which in turn tends to leach nitrogen and other nutrients to depths below the root zone Drip irrigation applies lower amounts of water with fertilizers injected and thus these fertilizers are applied to the root zone as needed This also reduces the amount of fertilizer needed for adequate plant growth when compared to broadcast fertilization Improved crop quality edit Plastic mulches keep ripening fruits off of the soil This reduced contact with the soil decreases fruit rot as well as keeps the fruit and vegetables clean This is beneficial for the production of strawberries for example 6 Reduction in soil compaction edit See also soil compaction agriculture The plastic mulch covering the soil decreases the crusting effect of rain and sunlight The reduction in weed quantity means a decreased need for mechanical cultivation Weed control between beds of plastic can be done using directly applied herbicides and through mechanical means The soil underneath the plastic mulch stays loose and well aerated with the mulch protecting the soil it covers from erosion 1 Reduction in root damage edit The use of plastic mulch creates a practically weed free area around the plant removing the need for cultivation except between the rows of plastic Root damage associated with cultivation is therefore eliminated Due to these factors the use of plastic mulch can lead to an improvement in the overall growth of the plant 7 Disadvantages editThere are many disadvantages to using plastic mulches in crop production as well Cost edit The benefits from using plastic mulch come at a higher cost than planting in bare soil These costs include equipment the plastic film used as the mulch transplanters designed for plastic beds and additional labor during installation and removal of mulch films Specialized mulch application equipment must be used to install plastic mulch beds into a field These machines shape the soil and apply the plastic to the prepared soil Transplanters designed for plastic mulch can be used to plant the desired crop Hand transplanting is an option but this is rather inefficient The removal of plastic mulch also contributes to a higher cost through additional labor and equipment needed Specialized designed undercutting equipment can be used to remove the plastic from the field after harvest Environmental concerns edit Further information plastic pollution microplastic and soil contamination If conventional plastics e g PE are used as mulch films they are likely to accumulate in soil since the removal and the correct disposal of these plastics are technically and economically burdensome 8 This accumulation could cause both crop yield reduction and environmental problems 9 Biodegradable polymers are polymers that can be degraded by the naturally occurring microbial community in an environmental system They provide a more sustainable alternative to conventionally used plastics for mulch films Providing the same benefits as detailed above the problem of plastic accumulation in soils could be solved 10 Aliphatic polyesters and aliphatic aromatic co polyesters have shown to be promising groups of biodegradable polymers 11 Application edit nbsp Raised vegetable beds covered in plastic mulch The use of plastic mulch requires a unique application process to ensure proper placement of the plastic film This application process begins with preparing the field the same way one would for a flat seed bed The bed must be free of large soil clods and organic residue A machine called a plastic layer or a bed shaper is pulled over the field creating a row of plastic mulch covering a planting bed These beds can be a flat bed which simply means the surface of the plastic mulch is level with the inter row soil surface Machines that form raised beds create a plastic surface higher than the inter row soil surface The basic concept of the plastic bed shaper is a shaping box which creates the bed that is then covered by plastic via a roller and two coulters that cover the edges of the plastic film to hold the plastic the soil s surface These plastic layers also place the drip irrigation line under the plastic while the machine lays the plastic It is somewhat important that the plastic is rather tight This becomes important in the planting process Planting editPlanting also requires specialized planting equipment The most common planting equipment is a waterwheel type transplanter The waterwheel transplanter utilizes a rotating drum or drums with spikes at set intervals The drum or drums have a water supply that continuously fills the drum with water The transplanter rolls the spiked drum over the bed of plastic As the drum presses a spike into the plastic a hole is punched and water flows into the punched hole A rider on the transplanter can then place a plant in the hole These drums can have multiple rows and varied intervals to create the desired spacing for that particular crop See also editPlasticulture Rubber mulch Living mulchReferences edit a b Bradney Lauren Wijesekara Hasintha Bolan Nanthi S Kirkham M B 2020 Sources of Particulate Plastics in Terrestrial Ecosystems Particulate Plastics in Terrestrial and Aquatic Environments 1 ed CRC Press p 9 ISBN 978 0 367 51140 1 Plastic mulch film recycling process Archived 2008 05 18 at the Wayback Machine Agricultural plastics recycling website accessed 07 03 08 a b Why food s plastic problem is bigger than we realise www bbc com Retrieved 2021 03 27 Nex Sally 2021 How to garden the low carbon way the steps you can take to help combat climate change First American ed New York ISBN 978 0 7440 2928 4 OCLC 1241100709 a href Template Cite book html title Template Cite book cite book a CS1 maint location missing publisher link Beyond the colour of mulch White Black mulch Agriplastics Community 31 August 2018 Deschamps Stephen S Whitaker Vance M Agehara Shinsuke 2019 01 03 White striped plastic mulch reduces root zone temperatures during establishment and increases early season yields of annual winter strawberry Scientia Horticulturae 243 602 608 doi 10 1016 j scienta 2018 09 018 ISSN 0304 4238 S2CID 91724681 Retrieved 2022 01 20 What Is Mulch Important Things You Should Know The Detail Guys 2021 06 18 Retrieved 2022 10 09 Kyrikou I amp Briassoulis D 2007 Biodegradation of agricultural plastic films a critical review Journal of Polymers and the Environment 15 2 125 150 doi 10 1007 s10924 007 0053 8 S2CID 195331133 One major drawback of most polymers used in agriculture is the problem with their disposal following their useful lifetime Non degradable polymers being resistive to degradation depending on the polymer additives conditions etc tend to accumulate as plastic waste creating a serious problem of plastic waste management a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link Rillig M C 2012 Microplastic in terrestrial ecosystems and the soil Environmental Science amp Technology 46 12 6453 6454 Bibcode 2012EnST 46 6453R doi 10 1021 es302011r PMID 22676039 Tokiwa Y Calabia B P Ugwu C U amp Aiba S 2009 Biodegradability of plastics International Journal of Molecular Sciences 10 9 3722 3742 doi 10 3390 ijms10093722 PMC 2769161 PMID 19865515 a href Template Cite journal html title Template Cite journal cite journal a CS1 maint multiple names authors list link Muller R J 2006 Biological degradation of synthetic polyesters enzymes as potential catalysts for polyester recycling Process Biochemistry 41 10 2124 2128 doi 10 1016 j procbio 2006 05 018 Further reading editHochmuth G 1998 What to do with all that mulch Amer Veg Grower 46 4 45 Lamont W J Jr 1993 Plastic mulches for the production of vegetable crops HortTechnology 3 1 35 39 doi 10 21273 HORTTECH 3 1 35 Marr C W 1993 Plastic Mulches for Vegetables Kansas State University October 1 3 McCraw D Motes J E 2007 Use of Plastic Mulch and Row Covers in Vegetable Production Oklahoma Cooperative Extension Fact Sheets 1 5 Rice P J et al 2001 Runoff loss of pesticides and soil A comparison between vegetative mulch and plastic mulch in vegetable production systems J Environ Qual 30 5 1808 1821 doi 10 2134 jeq2001 3051808x PMID 11577890 Steinmetz Z Wollmann C Schaefer M Buchmann C David J Troger J Munoz K Fror O Schaumann G E 2016 Plastic mulching in agriculture Trading short term agronomic benefits for long term soil degradation Sci Total Environ 550 690 705 Bibcode 2016ScTEn 550 690S doi 10 1016 j scitotenv 2016 01 153 PMID 26849333 Wittwer S H 1993 World wide use of plastics in horticultural production HortTechnology 3 1 6 19 doi 10 21273 HORTTECH 3 1 6 External links edit nbsp Media related to plastic mulch at Wikimedia Commons Retrieved from https en wikipedia org w index php title Plastic mulch amp oldid 1183213419, wikipedia, wiki, book, books, library,

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