Abstract
A seed is an agricultural commodity that is raised and harvested under optimum conditions and processed with state-of-the-art technologies to maximize its viability and subsequent crop productivity. The seed is the basic ingredient of successful crop production which guarantees the highest yield potential of any crop variety. The use of good-quality seed under high productive systems can increase yields by 5–20%.Every stage of seed production from field selection to harvesting and then processing to seed storage is crucial for the quality management of seed. Seed quality is dictated by its germination and physical (inert matter, chaff, dirt and soil particles) and biological contaminations (presence of weed and other crop seeds, seed-borne diseases and insects). The seed production system of major field crops varies with the mode of reproduction and pollination system, which affects their genetic stability. Agronomic crops are mostly produced through seeds. Pure lines are developed with basic methods of creating variation, selection and stabilization. Single-cross hybrids are not only common in field crops such as maize and sunflower but also an adapted technology in vegetable and floriculture seed production. The pure seed of self-pollinated species, at the same time synthetics and composite seed of cross-pollinated species, is produced under standardized conditions recommended by seed certification department and dictated by the mode of pollination. In vivo and in vitro techniques are used for the production of doubled haploids to achieve homozygosity for rapid filial generation advancement. In planta and in vitro transformation methods are gaining popularity for the production of GMOs. This chapter will provide a comprehensive overview of various production technologies of seed production, production of GMOs, hybrid production methods and various management practices of seed production of agronomic crops in detail.
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Abbreviations
- AOSCA:
-
Association of Official Seed Certifying Agencies (AOSCA)
- CMS:
-
System of cytoplasmic male sterility
- DUS:
-
Distinctness, uniformity and stability:
- GMO:
-
Genetically modified organisms;
- MS:
-
Male sterility
- OECD:
-
Organization for Economic Co-operation and Development
- OPVs:
-
Open pollinated varieties
- VCU:
-
Value for cultivation and use
References
Abdullah SNA, Hakeem KR, Akhtar MS (2016) Plant, soil and microbes: volume 1: implications in crop science. Springer, Cham
Ackerman JD (2000) Abiotic pollen and pollination: ecological, functional, and evolutionary perspectives. In: Pollen and pollination. Springer, Vienna, pp 167–185
Acquaah G (2009) Principles of plant genetics and breeding. Wiley, New York
Adhikari J (2014) Seed sovereignty: Analysing the debate on hybrid seeds and GMOs and bringing about sustainability in agricultural development. J For Livelihood 12(1):33–46
Afzal I, Rehman H, Naveed M, Basra SMA (2016) Recent advances in seed enhancements. In: Araujo S, Balestrazzi A (eds) New challenges in seed biology-basic and translational research driving seed technology. InTech publishing Ltd
Afzal I, Bakhtavar MA, Ashfaq M, Sagheer M, Baributsa D (2017) Maintenance of seed dryness during storage contributes to higher quality of maize seeds. J Stored Prod Res 72:49–53
Agrawal PK (2014) Principles of seed technology. Indian Council of Agricultural Research, New Delhi
Allard RW, Allard RW (1999) Principles of plant breeding. In: Breeding of clonally propagated plants. Wiley, New York
Arias-Jiménez EJ (2002) Date palm cultivation. In: Land preparation, operation and fertilization requirements (no. 156). FAO, Rome
Atilaw A, Alemu D, Bishaw Z, Kifle T, Kaske K (2016) Early generation seed production and supply in Ethiopia: status, challenges and opportunities. Ethiopian J Agric Sci 27(1):99–119
Balalic I, Marjanovic-Jeromela A, Crnobarac J, Terzic S, Radic V, Miklic V, Jovicic D (2017) Variabilty of oil and protein content in rapeseed cultivars affected by seeding date. Emirates J Food Agric:404–410
Barrows EM (2000) Animal behavior desk reference: a dictionary of animal behavior, ecology, and evolution. CRC Press, Boca Raton
Bhojwani SS, Razdan MK (1986) Plant tissue culture: theory and practice, vol 5. Elsevier, Amsterdam, pp 483–536
Bourne MC (1977) Post-harvest food losses - the neglected dimension in increasing the world food supply, Cornell University International Agriculture Mimeograph no. 53. Cornell University, Ithaca
Breseghello F, Coelho ASG (2013) Traditional and modern plant breeding methods with examples in rice (Oryza sativa L.). J Agric FoodC hem 61(35):8277–8286
Ceccarelli S (1986) Problems of seed production in forage crops. In: Srivastava JP, Simarski LT (eds) International Center for Agricultural Research in the Dry Areas, Aleppo
Chahal GS, Gosal SS (2002) Principles and procedures of plant breeding: biotechnological and conventional approaches. In: Synthetic and composite varieties. Alpha Science Int’l Ltd
Clulow SA, McNicoll J, Bradshaw JE (1995) Producing commercially attractive, uniform true potato seed progenies: the influence of breeding scheme and parental genotype. Theor Appl Genet 90(3–4):519–525
Colley M (2010) Selection and Roguing in organic seed production. Retrieved from https://archive.is/20130414163617/http://www.extension.org/article/18447/print
Cram M, Fraedrich S (2010) Seed diseases and seed borne pathogens of North America. Tree Planters’ Notes 53(2):35–44
Dimante I, Gaile Z (2014) Potato minitubers technology–its development and diversity: a review. Res Rural Develop 1:69–76
Egli DB, TeKrony DM, Spears JF (2005) High temperature stress and soybean seed quality: stage of seed development. Seed Technol 34:22–29
Elsanhoty RM (2013) Genetically modified roundup ready soybean in processed meat products in the Kingdom of Saudi Arabia. Ann Agric Sci 58(2):231–237
Ferguson JM, Keys RD, McLaughlin FW, Warren JM (1991) Seed and seed quality. Retrieved from https://content.ces.ncsu.edu/seed-and-seed-quality
Finch-Savage WE, Bassel GW (2015) Seed vigour and crop establishment: extending performance beyond adaptation. J Exp Bot 67(3):567–591
Food and Agriculture (FAO) (2003) On-farm trials for adapting and adopting good agricultural practices. Rome, Italy. http://www.fao.org/docrep/006/y5146e/y5146e00.htm
Fritz RS, Simms EL (1992) Plant resistance to herbivores and pathogens: ecology, evolution, and genetics. University of Chicago Press, Chicago
Gaitonde V (2017) Hybrid seed production technology in maize. https://doi.org/10.13140/RG.2.2.32452.22402
Gaskin J, Wilson M (2009) Nutrient Management, June 12.. Retrieved from http://soilquality.org/practices/nutrient_management.html
Gibson DJ, Young BG, Wood AJ (2017) Can weeds enhance profitability? Integrating ecological concepts to address crop-weed competition and yield quality. J Ecol 105(4):900–904
Glaz B, Miller JD, Deren CW, Tai PYP, Comstock J (2000) Registration of CP 89-2143’Sugarcane. Crop Sci 40(2):577–577
Guo-tong TAO, Jing-lei WANG, Ji-qin NAN, Yang GAO, Zhi-fang CHEN, Ni SONG (2014) Calculating method for crop water requirement based on air temperature. Ying yong Sheng tai Xue bao 25:7
Hasanuzzaman M (2015) Seed quality. Retrieved https://hasanuzzaman.weebly.com/uploads/9/3/4/0/934025/seed_quality.pdf
Hirata M (2011) Forage crop production. The role of food, agriculture, forestry and fisheries in human nutrition, vol 1. Encyclopedia of Life Support Systems, Oxford, pp 181–202
James C (2015) 20th anniversary (1996 to 2015) of the global commercialization of biotech crops and biotech crop highlights in 2015. Brief 51. International Service for the Acquisition of Agri-biotech Applications (ISAAA), New York
Johannsen W (1903) On heredity in populations and in pure lines. Gustav Fischer Verl, Jena. Retrieved https://core.ac.uk/download/pdf/14509092.pdf
Kruft D (2010) Impacts of genetically-modified crops and seeds on farmers. Legal Res 100(97):2–15
Kumar D, Kalita P (2017) Reducing postharvest losses during storage of grain crops to strengthen food security in developing countries. Foods 6(1):8
Lamkey K (2004) Seed production in corn and soybean. Agron Rep 4. http://lib.dr.iastate.edu/agron_reports/4
Lane A, Jarvis A (2007) Changes in climate will modify the geography of crop suitability: agriculture biodiversity can help with adaptation. SAT eJ 4:1–12
Lather DV (2017) Variety maintenance & seed production in pulses. Retrieved from https://www.slideshare.net/lather/variety-maintenance-seed-production-in-pulses
Malhotra SK, Vashishtha BB (2007) Seed certification standards for seed spices crops. In: Malhotra SK, Vashishtha BB (eds) Production, development, quality and export of seed spices. NRCSS, Ajmer, pp 84–92
Mancini V, Romanazzi G (2014) Seed treatments to control seedborne fungal pathogens of vegetable crops. Pest Manag Sci 70(6):860–868
McGuire S, Sperling L (2011) The link between food security and seed security: the facts and fictions that guide response. Dev Pract 21:493–508
Miller JD, Tai PYP, Glaz B, Dean JL, Kang MS (1984) Registration of CP 72-2086 sugarcane. Crop Sci 24(1):210. https://doi.org/10.2135/cropsci1984
Mrema GC, Gumbe LO, Chepete HJ, Agullo JO (2012) Chapter 12: grain crop drying, handling and storage. In: Rural structures in the tropics: design and development. Food and Agriculture Organization of the United Nations, Rome
Murashige T, Skoog F (1962) A revised medium for rapid growth and bioassays with tobacco tissue cultures. Physiol Plant 15:473–497
Pandey S (2009) In: Proceedings of the second world seed conference, 2009. Responding to the challenges of a changing world: the role of new plant varieties and high quality seed in agriculture. FAO, Rome, September 8–10. Food and Agricultural Organization, Rome, pp 239–241
Pedersen JR (1992) Insects: identification, damage, and detection,. pp. 435Ð489. In: Sauer DB (ed) Storage of cereal grains and their products, 4th edn. American Association of Cereal Chemists, St. Paul
Poehlman JM (1987) Breeding field crops. Springer, New York
Schafleitner R, Rosales ROG, Gaudin A, Aliaga CAA, Martinez GN, Marca LRT, Bonierbale M (2007) Capturing candidate drought tolerance traits in two native Andean potato clones by transcription profiling of field grown plants under water stress. Plant Physiol Biochem 45(9):673–690
Singh RP, Prasad PVV, Reddy KR (2015) Climate change: implications for stakeholders in genetic resources and seed sector. Adv Agron 129:117–180
Suma N, Srimathi P, Sumathi S (2014) Influence of size grading on seed and seedling quality characteristics of Sesamumindicum. Int J Curr Microbiol App Sci 3(6):486–490
Tai PYP, Shine JM, Deren JCW, Glaz B, Miller JD, Comstock JC (1997) Registration of ‘CP 88-1762’ sugarcane. Crop Sci 37:1388
Tamaki H, Yoshizawa A, Fujii H, Sato K (2007) Modified synthetic varieties: a breeding method for forage crops to exploit specific combining ability. Plant Breed 126(1):95–100
Tay D (2002) Vegetable hybrid seed production. Proceedings of the International Seed Seminar: Trade Production and Technology in Santiago, Chile, pp 128–139
Thapa M (2013) Regulatory framework of GMOs and hybrid seeds in Nepal. Agron J Nepal 3:128–137
The United Nations Industrial Development Organization (UNIDO). Framer’s Training Manual on Post Harvest Management of Sorghum, Groundnut and Rice. Retrieved on https://europa.eu/capacity4dev/hunger-foodsecurity-nutrition/document/unido-post-harvest-management-training-manual-farmers-0
Tripathi SM, Singh KP (2013) Hybrid seed production in Helianthus annuus L. through male sterility induced by Benzotriazole. 2:645. doi:https://doi.org/10.4172/scientificreports.645
Turner M (2017) A review of variety release procedures and related issues with recommendations for good practice. International Center for Agricultural Research in the Dry Areas (ICARDA), Beirut. Retrieved_http://repo.mel.cgiar.org/handle/20.500.11766/6362?show=full
Welbaum DG (2005) Vegetable seed production. Genetic Engineering. Department of Horticulture, Virginia Tech. Retrieved from https://www.hort.vt.edu/Welbaum/seedproduction/geneticeng.html
Whitty EB, Chambliss CG (1992) Harvesting and storage of agronomic crops. IFAS.SS-AGR-151
Wych RD (1988) Production of hybrid seed corn. Corn and corn improvement, vol 18. American Society of Agronomy, Madison, pp 565–607
Yan G, Liu H, Wang H, Lu Z, Wang Y, Mullan D, Liu C (2017) Accelerated generation of selfed pure line plants for gene identification and crop breeding. Front Plant Sci 8:1786
Yousaf Z, Saleh N, Ramazan A, Aftab A (2016) Postharvesting techniques and maintenance of seed quality. In: New challenges in seed biology-basic and translational research driving seed technology. InTech
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Afzal, I., Shabir, R., Rauf, S. (2019). Seed Production Technologies of Some Major Field Crops. In: Hasanuzzaman, M. (eds) Agronomic Crops. Springer, Singapore. https://doi.org/10.1007/978-981-32-9151-5_28
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