Abstract
Cotton is the most important non-food crop in the world producing natural fiber, edible oil, and seed cake. Approximately 249 million bales of cotton were produced worldwide in 2017. The United States, China, and India are the major cotton-producing countries in the world. Brazil is emphasizing on organic farming of cotton utilizing the natural services of insect pollinators for pollination and natural enemies for cotton pest management. Cotton products are obtained from its fruit (bolls) for lint and seed which takes place after pollination. Although cotton is commonly known as a self-pollinating crop, it is often cross-pollinated with 5–50% cross-pollination by natural mechanism of out-cross pollination. Insects are important natural pollinators, foraging cotton crop due to the presence of floral and extrafloral nectaries. Three main pollinating insect species, namely, Allograpta exotica (Diptera), Apis mellifera, and Melissodes tepaneca (Hymenoptera), have been reported as effective pollinators in cotton agroecosystems with 12% increase in fiber weight and 17% increase in number of seeds in insect-pollinated cotton crops than conventional cotton. Climate change, pesticide use, and agronomic practices are the main reasons for the decline of pollinators in cotton-growing areas. Pollination efficacy and pollinator diversity can be increased by manipulating the habitat for conservation of pollinators, reducing pesticide use, and maintaining natural flora near cotton-growing areas for alternate pollen source to pollinators for better cotton yield and quality. Small farmers can earn extra income if they get engaged in land use management to improve pollination services.
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
Abbreviations
- A.m :
-
Apis mellifera
- BB:
-
Bumble bees
- BE:
-
Bees excluded
- BP:
-
Bee pollination
- C:
-
Cross-pollination
- CE:
-
Cross-pollination essential
- H:
-
Hand pollination
- IE:
-
All insects excluded
- INM:
-
Integrated nutrient management
- IPM:
-
Integrated pest management
- IWM:
-
Integrated weed management
- OP:
-
Open pollination
- S:
-
Self-pollination
- TI:
-
Tiny insects permitted
- USDA:
-
United States Department of Agriculture
References
Adger WN, Kelly PM, Winkels A, Huy LQ, Locke C (2002) Migration, remittances, livelihood trajectories, and social resilience. AMBIO 31:358–366
Araujo ER, Albuquerque FA, Santiago FS, Jalfim FT, Arriel NH Blackburn RM (2012) Agro ecological intercropping with cotton and food: an alternative to food production and income generation for rural families in the semi-arid region of northeast Brazil. http://www.projetodomhelder.gov.br/site/images/PDHC/Artigos_e_Publicacoes/Algodao_em_consorcio_de_base_agroecologica/SociologiaLisboa_Artigo_ConsorcioAgroecologico_English.pdf. Accessed 30 Jan 2019
Armbruster WS (2011) Evolution and implications of “specialized” pollinator-rewards. In: Patiny S (ed) Evolution of plant-pollinator relationships. Cambridge University Press, Cambridge, pp 44–67
Bishop JA, Armbruster WS (1999) Thermoregulatory abilities of Alaskan bees: effects of size, phylogeny and ecology. Funct Ecol 13:711–724
Brown MJ, Paxton RJ (2009) The conservation of bees: a global perspective. Apidologie 40(3):410–416
Bugg RL (2008) Flower flies syrphidae and other biological control agents for aphids in vegetable crops. University of California, Division of Agriculture and Natural Resources. ANR Publication 8285: p. 1–25. http://anrcatalgo.ucdavis.edu/
Cooper PD, Schaffer WM, Buchmann SL (1985) Temperature regulation of honey bees Apis mellifera foraging in the Sonoran Desert. J Exp Biol 114:1–15
Cronk Q, Ojeda I (2008) Bird-pollinated flowers in an evolutionary and molecular context. J Exp Bot 59:715–727
Cusser S, Neff JL, Jha S (2016) Natural land cover drives pollinator abundance and richness, leading to reductions in pollen limitation in cotton agroecosystems. Agr Ecosyst Environ 226:33–42
Dastagiri MB, Immanuelraj TK, Patil GI (2013) India’s self, cross & often cross-pollinated crops in the global crop production: Mendelian variation perspectives. Sci Disc 3:16–27. https://doi.org/10.11648/j.sd.20130103.11
Dellinger AS, Penneys DS, Staedler YM, Fragner L, Weckworth W, Schönenberger J (2014) A specialized bird pollination system with a bellows mechanism for pollen transfer and staminal food body rewards. Curr Biol 24:1615–1619
Dutra CC, Meoti C, Fernandes MG Raizer J (2012) Riqueza e composicao de especies de insetosvisitantesfloraisde algodoeiroBt e nao-Bt. Arq Inst Biol São Paulo 79:353–361
FAO (2018) The pollination of cultivated plants: A compendium for practitioners, vol 1. Food and Agriculture Organization of the United Nations, Italy, Rome, pp 1–62. http://www.fao.org/pollination/resources/en/
Free JB (1970) Insect pollination of crops. Academic Press, London
Gaines-Day HR, Gratton C (2016) Crop yield is correlated with honey bee hive density but not in high-woodland landscapes. Agric Ecosyst Environ 218:53–57
Gallai N, Salles JM, Settele J, Vaissiere BE (2009) Economic valuation of the vulnerability of world agriculture confronted with pollinator decline. Ecol Econ 68:810–821
Garibaldi LA, Steffan-Dewenter I, Winfree R, Aizen MA, Bommarco R, Cunningham SA, Kremen C, Carvalheiro LG, Harder LD, Afik O, Bartomeus I, Benjamin F, Boreux V, Cariveau D, Chacoff NP, Dudenhöffer JH, Freitas BM, Ghazoul J, Greenleaf S, Hipólito J, Holzschuh A, Howlett B, Isaacs R, Javorek SK, Kennedy CM, Krewenka KM, Krishnan S, Mandelik Y, Mayfield MM, Motzke I, Munyuli T, Nault BA, Otieno M, Petersen J, Pisanty G, Potts SG, Rader R, Ricketts TH, Rundlöf M, Seymour CL, Schüepp C, Szentgyörgyi H, Taki H, Tscharntke T, Vergara CH, Viana BF, Wanger TC, Westphal C, Williams N, Klein AM (2013) Wild pollinators enhance fruit set of crops regardless of honey bee abundance. Science 339:1608–1611
Giannini TC, Boff S, Cordeiro GD, Cartolano EA, Veiga AK, Imperatriz-Fonseca VL, Saraiva AM (2015) Crop pollinators in Brazil, a review of reported interactions. Apidologie 46:209–223
Goodwin M (2012) Pollination of crops in Australia and New Zealand. RIRDC. Publication No. 12/059 Project No. HG09058
Hughes L (2000) Biological consequences of global warming: is the signal already apparent? Trends Ecol Evol 15:56–61
Johnson J, MacDonald S, Meyer L, Stone L (2018) Cotton Outlook. USDA - United States Department of Agriculture. https://www.usda.gov/oce/forum/2018/commodities/Cotton.pdf
Kehoe L, Kuemmerle T, Meyer C, Levers C, Václavík T, Kreft H (2015) Global patterns of agricultural land-use intensity and vertebrate diversity. Divers Distrib 21:1308–1318
Kevan PG, Clark EA, Thomas VG (1990) Insect pollinators and sustainable agriculture. Am J Altern Agric 5:13–22
Klein AM, Vaissiere BE, Cane JH, Steffan-Dewenter I, Cunningham SA, Kremen C, Tscharntke T (2007) Importance of pollinators in changing landscapes for world crops. Proc R Soc B 274:303–313
McGregor SE (1976) Insect pollination of cultivated crop plants. US Department of Agriculture, Agriculture Handbook, pp 496, US Gov. Print Office, Washington DC
Meade RM (1918) Bee keeping may increase the cotton crop. J Hered 9:282–285
Michener CD (2007) The bees of the world. John Hopkins University Press, Baltimore
Minkov SG (1956) Nectar productivity of cotton and the role of bees in cross pollination. Trudy Kazakh Opyt Sta Pchelov 1:109–150
Moens J, De Clercq P, Tirry L (2011) Side effects of pesticides on the larvae of the hoverfly Episyrphusbalteatus in the laboratory. Phytoparasitica 39:1–9
Parmesan C, Yohe G (2003) A globally coherent fingerprint of climate change impacts across natural systems. Nature 421:37–42
Petersen JD, Reiners S, Nault BA (2013) Pollination services provided by bees in pumpkin fields supplemented with either Apis mellifera or Bombus impatiens or not supplemented. PLoS One 8(7):e69819
Pires VC, Silveira FA, Sujii ER, Torezani KRS, Rodrigues WA, Albuquerque FA, Rodrigues SMM, Salomão AN, Pires CSS (2014) Importance of bee pollination for cotton production in conventional and organic farms in Brazil. J Pollination Ecol 13(16):151–160
Potts SG, Biesmeijer JC, Kremen C, Neumann P, Schweiger O, Kunin WE (2010) Global pollinator declines, trends, impacts and drivers. Trends Ecol Evol 25:345–353
Proctor MCF, Yeo P, Lack A (1996) The natural history of pollination. Timber Press, Portland
Rhodes J (2002) Cotton pollination by honeybees. Anim Prod Sci 42:513–518
Roubik DW (1995) Pollination of cultivated plants in the Tropics. FAO Agricultural Services Bulletin, Bulletin No. 118, Rome, FAO
Roulston TH, Goodell K (2011) The role of resources and risks in regulating wild bee populations. Annu Rev Entomol 56:293–312
Santhy V, Khadi BM, Singh P, Kumari PRV, Deshmukh RK, Vishwanathan A (2008) Hybrid seed production in cotton. CICR Technical Bulletin No. 35, Central Institute for Cotton Research Nagpur, pp 25. www.cicr.org.in
Shuler RE, Roulston TH, Farris GE (2005) Farming practices influence wild pollinator populations on squash and pumpkin. J Econ Entomol 98:790–795
Sih A, Baltus MS (1987) Patch size, pollinator behavior, and pollinator limitation in catnip. Ecology 68(6):1679–1690
Silva EMS (2007) Abelhasvisitantesflorais do algodoeiro (Gossypium hirsutum) emQuixeramobim e Quixeré, Estado do Ceará, e seusefeitosnaqualidade da fibra e da semente. Tese de doutorado. http://www.zootecnia.ufc.br/wa_files/tese2007_eva_20monica_20sarmento_20da_20silva.pdf
Simpson BB, Neff JL (1981) Floral rewards: alternatives to pollen and nectar. Ann Mo Bot Gard 68:301–322
Steffan-Dewenter I, Münzenberg U, Bürger C, Thies C, Tscharntke T (2002) Scale-dependent effects of landscape context on three pollinator guilds. Ecology 83:1421–1432
Stein K, Coulibaly D, Stenchly K, Goetze D, Porembski S, Lindner A, Konate S, Linsenmair EK (2017) Bee pollination increases yield quantity and quality of cash crops in Burkina Faso, West Africa. Sci Rep 7(1):17691
Vaissiere BE, Moffett JO, Loper GM (1984) Honey bees as pollinators for hybrid cotton seed production on the Texas high plains. Argon J 76:1005–1010
Yan S, Zhu J, Zhu W, Li Z, Shelton AM, Luo J, Cui L, Zhang Q, Liu X (2015) Pollen-mediated gene flow from transgenic cotton under greenhouse conditions is dependent on different pollinators. Sci Rep 5:15917
Author information
Authors and Affiliations
Editor information
Editors and Affiliations
Rights and permissions
Copyright information
© 2020 Springer Nature Singapore Pte Ltd.
About this chapter
Cite this chapter
Muhammad, W., Ahmad, M., Ahmad, I. (2020). Pollination Behavior of Cotton Crop and Its Management. In: Ahmad, S., Hasanuzzaman, M. (eds) Cotton Production and Uses. Springer, Singapore. https://doi.org/10.1007/978-981-15-1472-2_10
Download citation
DOI: https://doi.org/10.1007/978-981-15-1472-2_10
Published:
Publisher Name: Springer, Singapore
Print ISBN: 978-981-15-1471-5
Online ISBN: 978-981-15-1472-2
eBook Packages: Biomedical and Life SciencesBiomedical and Life Sciences (R0)