Journal of
Plant Breeding and Crop Science

  • Abbreviation: J. Plant Breed. Crop Sci.
  • Language: English
  • ISSN: 2006-9758
  • DOI: 10.5897/JPBCS
  • Start Year: 2009
  • Published Articles: 409

Full Length Research Paper

Evaluating the pollen proofing of nonwoven synthetic fabric pollination control tents for sugar beet

Paul Townson
  • Paul Townson
  • Lion Seeds Ltd. Maldon Road, Maldon, Essex CM9 6SN, UK.
  • Google Scholar
Daljit Singh Virk
  • Daljit Singh Virk
  • School of Natural Sciences, Bangor University, LL57 2UW, UK.
  • Google Scholar
Hannah Senior
  • Hannah Senior
  • PBS International, Salter Road, Scarborough, YO11 3UP, UK.
  • Google Scholar


  •  Received: 22 May 2020
  •  Accepted: 03 August 2020
  •  Published: 31 August 2020

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Bodnar A (2010). Sugar beet biology. Biology fortified Inc. Retrieved on 6 May 2020. 

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Bonneau L, Eli D, Vovola P, Virk DS (2017). Comparing pollination bag types for micro-environmental parameters influencing seed production in oil palm. Journal of Oil Palm Research 29(2):168-179.
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Clifton-Brown JC, Senior H, Purdy SJ, Horsnell R, Lankamp B, MuEennekhoff A K, Virk D, Guillemois E, Chetty V, Cookson A, Girdwood S, Clifton-Brown G, Tan ML, Awty-Carroll D, Bentley AR (2018). Investigating the potential of novel nonwoven fabrics for efficient pollination control in plant breeding. PLoS ONE 13(9):1-21, e0204728.
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Gaddameedi A, Kumar AA, Madhavrao PR, Virk DS, Senior H (2017). Evaluating the efficacy of synthetic fibre pollination control bags in Sorghum during the rainy season. International Journal of Plant Breeding and Genetics 11(1):39-54.
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Gitz DC, Baker JT, Xin Z, Burke JJ, Lascano RJ (2015). The microenvironment within and pollen transmission through polyethylene sorghum pollination bags. American Journal of Plant Science 6:265-274.
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Hayes C, Virk DS (2016). Assessing the relative efficacy of polyester pollination bags and crossing tents, and isolation chambers for seed harvest in Miscanthus crosses. International Journal of Plant Breeding and Genetics 10(2):79-90.
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McGarth JM, Panella L (2018). Sugar beet breeding. In: Irwin Goldman (Ed), Plant Breeding Reviews, Volume 42 Chapter 5, pp.167-218. John Wiley & Sons. Print ISBN: 9781119521310 |Online ISBN:9781119521358| 
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PBS International (2020a). Intelligent design-why our bags are best. 

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PBS International (2020b). Grasses research-why our bags are best. 

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PBS International (2020c).Pollination Control just got Bigger! 

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Schaffert RE, Virk DS, Senior H (2016). Comparing pollination control bag types for sorghum seed harvest. Journal of Plant Breeding and Crop Science 8(8):126-137.
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Schaffert RE, Virk DS, Senior H (2018). Are nonwoven synthetic pollination bags a better choice for sorghum breeding? Journal of Plant Breeding and Crop Science 10(3):58-68.
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Schaffert RE, Virk DS, Senior H (2019). Are Nonwoven Synthetic Pollination Bags a Better Choice for Sorghum Breeding? In Current Research in Agriculture and Horticulture Vol. 1 (Chapter 9):82-95. Print ISBN: 978-81-940613-7-3, eBook ISBN: 978-93-89246-27-8. 
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Trammell M, Pittman DG, Virk DS, Senior H (2020). Assessing the effectiveness of nonwoven fabric pollination tents for improved grass breeding. Journal of Plant Breeding and Crop Science 12(3):200-218. 

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Vogel KP, Sarath G, Mitchell RB (2014). Micromesh fabric pollination bags for switchgrass. Crop Science 54:1621-1623.
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Wang WH, Gong RH (2006). Thermally Bonded Nonwoven Filters Composed of Bi-Component Polypropylene/Polyester Fiber. II. Relationships between Fabric Area Density, Air Permeability, and Pore Size Distribution. Journal of Applied Polymer Science 102:2264-2275.
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