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Sustainable Weed Management in Maize (Zea mays L.) Production: A Review in Perspective of Southern Asia

Yıl 2019, Cilt: 22 Sayı: 1, 133 - 143, 04.07.2019

Öz



Weed species and maize crop
strongly compete for nutrients, water, space and light for their growth and
development. There is a strong correlation between weed population and maize
yield.
Weeds
crop association,
critical
period of crop-weed competition, methods of weeds control, herbicide tolerant
maize cultivars and losses due to weeds and economics of weed control in maize
are discussed in this review. The output of different research works clearly
indicated that weed infestation led 20-80% reduction in maize yield. The
critical period of crop weed competition varies from 2 to 7 weeks after crop
sowing, with the most critical competition between 4-7 weeks after sowing. Weed
control measures should be taken during this period to minimize the yield loss
of maize and increase the water and nutrient use efficiency. Herbicides are
popular and widely used measures to control weeds in maize production systems,
but several studies have shown their negative environmental consequences.
Single approach-based weed management system becomes inefficient against maize
weeds. The integrated weed management (IWM) system is recommended to reduce the
use of herbicides for its sustainable production.




Kaynakça

  • Agarwal R.G. (2007). Food security and role of agrochemicals. Crop Care, 33(2): 3-8. Bharati C. (2016). Chemical weed control in hybrid maize (Zea mays L.). A thesis submitted to the Orissa University of Agriculture and Technology in partial fulfilment of the requirements for the degree of Master of Science in Agriculture (Agronomy)Bhuvaneswari J., Muthusankaranarayanan A., Avudaithai. (2002). Weed smothering effect of inter cropping in maize. Madras Agric. J., 89(10-12): 714-716.Bijandeh E., Ghadiry H. (2006). Effect of separate and combined treatments of herbicides on weed Control and corn Yield. Weed Techn., 20(3): 640-645.Bollman J.D., Boerboom C.M., Becker R.L., Fritz V.A. (2008). Efficacy and tolerance to HPPD-inhibiting herbicides in sweet corn. Weed Technology, 22(4): 666–674.Bundinienė O., Jankauskienė, J., Kavaliauskaitė, D., Starkutė, R. (2008, September). Chemical weed control in carrot crop. In IV Balkan Symposium on Vegetables and Potatoes 830 (pp. 385-390).Candido V., D’Addabbo T., Miccolis V., Castronuovo, D. (2011). Weed control and yield response of soil solarization with different plastic films in lettuce. Sci. Hort. 130: 491–497.Chemical weed control in winter maize (Zea mays). Haryana J. Agron., 11(2): 103-107.Chikoye D., Ekeleme F. (2003). Cover crops for cogongrass management and effects on subsequent yield. Weed Sci., 51:792-797. Coble H.D., Mortensen D.A. (1992). The threshold concept and its application to weed science. Weed Technol, 6:191–195Cousens R. (1987). Theory and reality of weed control thresholds. Plant Prot. Q., 2:13–20.Czapar G.F., Curry M.P., Wax L.M. (1997). Grower acceptance of economic thresholds for weed management in Illinois. Weed Technol, 11:828–831.Das A., Kumar M., Ramkrushna G.I., Patel D.P., Layek J., Naropongla, Panwar A.S., Ngachan SV. (2016). Weed management in maize under rainfed organic farming system. Indian Journal of Weed Science, 48(2): 168–172Deshmuk L.S., Jathore R.S., Raskar S.K. (2008). Studies on nutrient management in kharif maize under rainfed conditions. Indian. J. Weed. Sci., 40(1/2):87-89.Dixit A., KC G. (1993). Effect of atrazine on photosynthesis and nitrogen metabolism in rabi maize. Indian J. Weed Sci., 26(3and4): 77-81.Duke S.O. (2005). Taking stock of herbicide-resistant crops ten years after introduction. Pest Manag. Sci., 61: 211-218.Egley G. H., Chandler J. M. (1978). Germination and viability of weed seeds after 2.5 years in a 50-year buried seed study. Weed Science, 26(3): 230-239.Eleftherohorinos I.G., Kotoula E., Syka. (1995). Influence of herbicide application rate and timing of post emergence control of Sorghum halepense L. Pers. in maize. Weed Res., 35(2): 99-103.FAOSTAT. 2017. The Food and Agricultural Organization of the United Nations: The statistical database [Online]. Available at http://faostat.fao.orgFongod A.N. (2004). Taxonomy and ecology of weeds in banana production systems in South Western Cameroon. Ph.D. Thesis, University of Buea, Cameroon. Pp. 193Fongod A.N. (2004). Taxonomy and ecology of weeds in banana production systems in South Western Cameroon. Ph.D. Thesis, University of Buea, Cameroon. Pp. 193.Fried G., Norton L.R., Reboud X. (2008). Environmental and management factors determining weed species composition and diversity in France. Agriculture, Ecosystems and Environment,128: 68–76.Gardner J.G., Nelson G.C. (2008). Herbicides, glyphosate resistance and acute mammalian toxicity: Simulating an environmental effect of glyphosate-resistant weeds in the USA. Pest Manag. Sci., 64(4): 470-478.Gaur B.L., Rao D.S., Kaushik M.K. (1991). Comparative efficacy of pre-and postemergence herbicides in controlling weeds in rainy-season maize (Zea mays L.). Indian J. Argon, 36: 261-262.Gharde Y., Singh P.K., Dubey R.P., Gupta P.K. (2018). Assessment of yield and economic losses in agriculture due to weeds in India. Crop Protection, 107: 12-18 Ghosheh H.Z., Holshouser, Chandler J.M. (1996). The critical period of Johnsongrass (Sorghum halepense) control in field corn (Zea mays L.). Weed Sci., 44(4): 944-947.Gianessi L.P. (2008). Economic impacts of glyphosate-resistant crops. Pest Manag. Sci, 64(4): 346-352.Hansson D., Svensson S. E. (2004). Steaming soil in narrow strips for intra-row weed control in sugar beet. In: EWRS Workshop on physical and cultural weed control, 6., Lillehammer, 2004.Harker K.N., O’Donovan J.T., Blackshaw R.E., Beckie H.J., Mallory-Smith C., Maxwell B.D. (2012). Our view. Weed Sci., 60: 143–4.Intodia S.K., Yadav L.R., Tomar O.P. (1996). Effect of herbicides on weed control efficiency and yield in maize (Zea mays L.)–soybean (Glycine max) intercropping system. Indian J. Agric. Sci., 60(12): 730-731.Kamble T.C., Kakade S.U., Nemade S.U., Pawar R.V., Apotikar V.A. (2005). A integrated weed management in hybrid maize. Crop Res. Hisar, 29(3): 396-400.Kandasamy O.S., Chandrasekhar C.N. (1998). Comparative efficacy of chemical and non-chemical methods of weed management in rainfed maize (Zea mays L.). Indian J. Weed Sci., 30: 201-203.Karlen D. L., Cambardella C. A., Bull C. T., Chase C. A., Gibson L. R., Delate K. (2007). Producer–Researcher Interactions in On-Farm Research. Agronomy Journal, 99(3):779-790.Knezevic S.Z., Evans S.P., Blankenship E.E., Van Acker R.C., Lindquist J.L. (2002). Critical period for weed control: the concept and data analysis. Weed Sci., 50:773–786Kolage A.K., Shinde S.H., Bhilare R.L. (2004). Weed management in kharif maize. J. Maharashtra Agric. Univ., 29(1): 110-111.Krishnamurthy S., Krishnamurthy R. (1996). Integrated weed management for the premonsoon sown sorghum – cowpea intercropping system under rainfed vertisols. Madras Agric J., 83(5): 300-302. Kulshrestha G., Parmar B.S. (1992). In: Resource Management of Sustainable Crop Production Souvenir, 1992. Indian Society of Agronomy pp. 339-343. LeBrun M., Sailland A., Freyssinet G. (1997). Mutated 5-enolpyruvylshikimate-3-phosphate synthase, gene coding of said protein and transformed plants containing said gene. International Patent Application WO 97/04103.Letourneau, D. K., Armbrecht, I., Rivera, B. S., Lerma, J. M., Carmona, E. J., Daza, M. C., Mejía, J. L. (2011). Does plant diversity benefit agroecosystems? A synthetic review. Ecological applications, 21(1): 9-21.Liebman M., Baraibar B., Buckley Y., Childs D., Christensen S., Cousens R., Eizenberg H., Heijting S., Loddo D., Merotto Jr A., Renton M., Riemens M. (2016). Ecologically sustainable weed management: How do we get from proof-of-concept to adoption? Ecol. Appl., 26: 1352–69. Malviya A., Singh B. (2007). Weed dynamics, productivity and economics of maize (Zea mays) as affected by integrated weed management under rainfed condition. Indian J. Agron., 52(4): 321- 324.Mathiassen S. K., Bak T., Christensen S., Kudsk P. (2006). The effect of laser treatment as a weed control method. Biosystems Engineering, 95(4): 497-505.Mertens S. K., Jansen J. H. (2002). Weed seed production, crop planting pattern, and mechanical weeding in wheat. Weed Science, 50(6): 748-756.Mukhtar A. M., Eltahir S. A., Siraj O. M., Hamada, A. A. (2007). Effect of weeds on growth and yield of maize (Zea mays L) in Northern State, Sudan. Sudan Journal of Agricultural Research, 8:1-7. Mundra S.L., Vyas A.K., Maliwal P.C. (2002). Effect of weed and nutrient management on nutrient uptake by maize (Zea mays L.) and weeds. Indian. J. Agron., 47(3): 378-383.Ndam L. M., Enang J. E., Mih A. M., Egbe A. E. (2014). Weed diversity in maize (Zea mays L.) fields in South Western Cameroon. International Journal of Current Microbiology and Applied Sciences, 3: 173¬180.Ndam, L. M., Enang J. E., Mih A. M., Egbe E. A. (2014). Weed diversity in maize (Zea mays L.) fields in South Western Cameroon. International Journal of Current Microbiology and Applied Sciences, 3: 173-180.Ņečajeva J., Mintāle Z., Dudele I., Isoda-Krasovska A., Čūrišķe J., Rancāns K., Kauliņa I., Morozova O., Spuriņa L. (2015). Factors influencing weed species diversity in southeastern part of Latvia: analysis of a two-year weed survey data. Acta Biol. Univ. Daugavp., 15 (1): 147 – 156.Oerke E.C., Dehne H.W. (2004). Safeguarding production losses in major crops and the role of crop protection. Crop Prot., 23: 275-85.Pandey A.K., Prakash V., Gupta H.S. (2002). Effect of integrated weed management practices on yield and economics of baby corn (Zea mays). Indian J. Agron., 46(2): 260-265.Paradkar V.K., Sharma R.K. (1993). Integrated weed management in maize. Indian. J. Weed Sci., 25(3and4): 81-83.Patel V.J., Upadhyaya P.N., Patel J.B., Meisuriya M.I. (2006). Effect of herbicide mixtures on weeds in Kharif maize under middle Gujarat conditions. Indian Journal of Weed Science, 38(1and2):54-57.Pérez-Ruiz M., Slaughter D. C., Gliever C. J., Upadhyaya S. K. (2012). Automatic GPS-based intra-row weed knife control system for transplanted row crops. Computers and Electronics in Agriculture, 80: 41-49.Porwal M.K. (2000). Economics of weed control measures in winter maize (Zea mays). Indian J. Agron,. 45(2): 344-347.Ramakrishna A., Tam H.M., Wani S.P., Long T.D. (2006). Effect of mulch on soil temperature, moisture, weed infestation and yield of groundnut in northern Vietnam. Field Crops Research, 95: 115–125.Reddy S.K., Sundari S.V., Kumar S. (2002). Evaluation of suitable weed management programme in hybrid maize Indian. J. Weed. Sci., 34(3 and 4): 307-308.Saha G.P., Srivastava V.C. (1992). Relative efficiency of chemical and cultural were control in rainfed maize. Indian J. Agron., 37(4): 818-819.Saini J.P., Angiras N.N. (1998). Efficacy of herbicides alone and in mixtures to control weeds in maize under mid-hill conditions of Himachal Pradesh. Indian J. Weed Sci., 30(1/2): 65-68.Sandhu K.S., Bhatia R.K. (1991). Chemical weed control in transplants winter maize. Indian J. Weed Sci. 23(3and4): 53-55.Sarma C.K., Gautam R.C. (2010). Weed growth, yield and nutrient uptake in maize (Zea mays) as influenced by tillage, seed rate and weed control methods. Indian J. Agron., 55(4): 299-303.Schnable PS, Ware D, Fulton RS et al (2009) The B73 maize genome: complexity, diversity and dynamics. Science 326:1112–1115 Shad R.A., Chatha M.Q., Nawaz H. (1993). Weed management studies in maize. Pakistan J. Agric. Res., 14(1): 44-50.Shaner D.L. (2014). Lessons learned from the history of herbicide resistance. Weed Sci. 62: 427–31.Sharma A.R., Toor A.S., Sur H. (2000). Effect of interculture operations and scheduling of Atrazine application on weed control and productivity of rainfed maize (Zea mays L.) in Shiwalik foot hills of Punjab. Indian J. Agril. Sci., 70(1): 757-761Sharma J., Nayital S.C. (1993). Crop weed competition in maize (Zea mays) + blackgram (Phaseolus mungo) intercropping system. Indian J. Agron., 36: 64-67.Singh B., Singh C.M., Bhargava M., Sood R.D. (1991). Integrated weed control in rainfed maize. Himachal J. Agric. Res. 17(1): 1-2.Singh R.V., Arya M.P.S. (1994). Studies on the chemical weed control in fingermillet under rainfed condition. Indian J. Weed Sci., 26(3and4): 45-51.Sinha S.P., Prasad S.M., Singh S.J., Sinha K.K. (2003). Integrated weed management in winter maize (Zea mays L.) in North Bihar. Indian J. Weed. Sci., 35 (3/4): 273-274.Smeda R. J., Weston L. A. (1995). Weed management systems for horticultural crops. In: Smith, A. E. (Ed.). Handbook of weed management systems. New York: Marcel Dekker, 1995. p. 553-570.Sohrab M., Ali R. (2009). Estimation of critical period for weed control in Corn in Iran. World Academy of Science, Engineering and Technology, 49; 67-72.Sreenivas G., Satyanarayana V. (1994). Nutrient removal by weeds and maize (Zea mays). Indian J. Agron., 41(1): 160-162.Statista. (2018). Worldwide production of grain in 2017/18, by type (in million metric tons). https://www.statista.com/statistics/263977/world-grain-production-by-type/Stephenson DO, Bond J.A. (2012). Evaluation of thiencarbazone-methyl- and isoxaflutole-based herbicide programs in corn. Weed Technology, 26(1): 37–42.Subramanyam D., Reddy M., Reddy R. (2001). Economics of weed management practices in irrigated maize (Zea mays L.). Andhra Agric. J., 48(3and4): 318-320.Sutton P., Richards C., Buren L., Glasgow L. (2002). Activity of mesotrione on resistant weeds in maize. Pest Management Science, 58(9): 981–984.Swanton C.J., Gulden R.H., Chandler K. (2007). A rationale for atrazine stewardship in corn. Weed Science, 55(1): 75–81.Swanton C.J., Murphy S.D. (1996). Weed science beyond the weeds: the role of integrated weed management (IWM) in agroecosystem health. Weed Sci., 44:437–445.Swanton C.J., Weise S.F. (1991). Integrated weed management: the rationale and approach. Weed Technol., 5: 657-663.Tapia L.S., Bauman T.T., Harvey R.G., Laux M.M., Kells J.J., Owen D.D., Strachen S.D. (1997). Post emergence herbicides application timing effects on annual grass control and corn grain yield. Weed Sci., 45:138-143.Thakur D. R. (1994). Weed management in intercropping system based on maize (Zea mays L.) under rainfed mid hill condition. Indian J. Agron., 39(2): 203-206.Thakur D.R., Singh K.K. (1989). Effects of weed management systems on weeds under varying fertilizer levels in rainfed maize. Indian J. Weed Sci., 21(3and4): 10-14.Thapa C.B. (2001). Weed flora of maize Field in Pokhara, Nepal. Nepal Journal of Science and Technology, 3:9-14Tyagi R.C., Tyagi A.K., Karwasra R.S., Singh B.R. (1993). Crop weed competition in maize. In Integrated Weed Management for Sustainable Agriculture. Proc. of Indian Soc. of Weed Sci. International Symp., Hissar, India, pp.18-20.Verdú A. M., Mas, M. T. (2007). Mulching as an alternative technique for weed management in mandarin orchard tree rows. Agronomy for Sustainable Development, 27(4): 367-375.Vyn J.D., Swanton C.J., Weaver S.E., Sikkema P.H. (2006).Control of Amaranthus tuberculatus var. rudis (common waterhemp) with pre and post emergence herbicides in Zea mays L. (maize). Crop Protection, 25(9): 1051–1056.Walia U.S., Singh S., Singh B. (2007). Integrated control of hardy weeds in maize (Zea mays L.). Indian J. Weed Sci., 39(1and2): 17-20.Walsh M.J., Stratford K., Stone K., Powles S.B. (2012).Synergistic effects of atrazine and mesotrione on susceptible and resistant wild radish (Raphanus raphanistrum) populations and the potential for overcoming resistance to triazine herbicides. Weed Technology, 26(2): 341–347.Weaver S.E., Tan C.S. (1983). Critical period of weed interference in transplanted tomatoes (Lycopersicon esculentum): Growth analysis. Weed Sci., 31: 476-481.Weaver S.E., Tan C.S. (1987). Critical period of weed interference in field seeded tomatoes and its relation to water stress and shading. Canadian J. Plant Sci., 67: 575-583.Werth J., Keenan M., Thornby D., Bell K., Walker S. (2017). Emergence of four weed species in response to rainfall and temperature. Weed Biology and Management, 17(1): 29-35.Whaley C.M., Armel G.R., Wilson H.P., Hines T.E. (2006). Comparison of mesotrione combinations with standard weed control programs in corn. Weed Techn., 20(3): 605-611. Whaley C.M., Armel G.R., Wilson H.P., Hines T.E. (2009). Evaluation of S-metolachlor plus atrazine mixtures with mesotrione for broadleaf weed control in corn. Weed Techn., 23(2): 193-196.Wiles L.J. (2004). Economics of Weed Management: Principles and Practices. Weed Technology, 18:1403–1407.Woodyard A.J., Bollero G.A., Riechers D.E. (2009). Broadleaf weed management in corn utilizing synergistic Postemergence herbicide combinations. Weed Techn., 23:513-518.Yaduraju N.T. (2012). Weed management perspectives for India in the changing agriculture scenario in the country. Pakistan Journal of Weed Science, 18: 703-710.Zimdahl R.L. (2004). Weed Crop Competition: A Review, 2nd ed. Blackwell Publishing. p. 220.

Sustainable Weed Management in Maize (Zea mays L.) Production: A Review in Perspective of Southern Asia

Yıl 2019, Cilt: 22 Sayı: 1, 133 - 143, 04.07.2019

Öz

Weeds and maize have equivalent
competition for nutrients, water, space and light sources for their growth and
development. There is a strong correlation between lower weed population and
higher maize yield. Weed species in maize, critical
period of crop-weed competition, methods of weeds control, herbicide
tolerant maize cultivars and losses due to weeds and economics of weed control in
maize are discussed in this article. The output of different research works
clearly indicated that weed infestation led to 20-80% reduction in maize yield.
The variation in the critical period of crop weed competition varies from two
to six weeks after maize sown, but the most critical period is between 30-50
days after sowing. Weed control measures should be taken during this period to
minimize the yield loss of maize and to increase the water and nutrient use
efficiency. Chemical herbicides are popular and widely used to control weed in
maize production systems, but several studies have shown their negative
environmental consequences. Single approach-based weed management system
becomes inefficient against maize weeds. The integrated weed management (IWM)
system is recommended to apply which reduce the use of herbicides and focus on
the sustainable crop production system.

Kaynakça

  • Agarwal R.G. (2007). Food security and role of agrochemicals. Crop Care, 33(2): 3-8. Bharati C. (2016). Chemical weed control in hybrid maize (Zea mays L.). A thesis submitted to the Orissa University of Agriculture and Technology in partial fulfilment of the requirements for the degree of Master of Science in Agriculture (Agronomy)Bhuvaneswari J., Muthusankaranarayanan A., Avudaithai. (2002). Weed smothering effect of inter cropping in maize. Madras Agric. J., 89(10-12): 714-716.Bijandeh E., Ghadiry H. (2006). Effect of separate and combined treatments of herbicides on weed Control and corn Yield. Weed Techn., 20(3): 640-645.Bollman J.D., Boerboom C.M., Becker R.L., Fritz V.A. (2008). Efficacy and tolerance to HPPD-inhibiting herbicides in sweet corn. Weed Technology, 22(4): 666–674.Bundinienė O., Jankauskienė, J., Kavaliauskaitė, D., Starkutė, R. (2008, September). Chemical weed control in carrot crop. In IV Balkan Symposium on Vegetables and Potatoes 830 (pp. 385-390).Candido V., D’Addabbo T., Miccolis V., Castronuovo, D. (2011). Weed control and yield response of soil solarization with different plastic films in lettuce. Sci. Hort. 130: 491–497.Chemical weed control in winter maize (Zea mays). Haryana J. Agron., 11(2): 103-107.Chikoye D., Ekeleme F. (2003). Cover crops for cogongrass management and effects on subsequent yield. Weed Sci., 51:792-797. Coble H.D., Mortensen D.A. (1992). The threshold concept and its application to weed science. Weed Technol, 6:191–195Cousens R. (1987). Theory and reality of weed control thresholds. Plant Prot. Q., 2:13–20.Czapar G.F., Curry M.P., Wax L.M. (1997). Grower acceptance of economic thresholds for weed management in Illinois. Weed Technol, 11:828–831.Das A., Kumar M., Ramkrushna G.I., Patel D.P., Layek J., Naropongla, Panwar A.S., Ngachan SV. (2016). Weed management in maize under rainfed organic farming system. Indian Journal of Weed Science, 48(2): 168–172Deshmuk L.S., Jathore R.S., Raskar S.K. (2008). Studies on nutrient management in kharif maize under rainfed conditions. Indian. J. Weed. Sci., 40(1/2):87-89.Dixit A., KC G. (1993). Effect of atrazine on photosynthesis and nitrogen metabolism in rabi maize. Indian J. Weed Sci., 26(3and4): 77-81.Duke S.O. (2005). Taking stock of herbicide-resistant crops ten years after introduction. Pest Manag. Sci., 61: 211-218.Egley G. H., Chandler J. M. (1978). Germination and viability of weed seeds after 2.5 years in a 50-year buried seed study. Weed Science, 26(3): 230-239.Eleftherohorinos I.G., Kotoula E., Syka. (1995). Influence of herbicide application rate and timing of post emergence control of Sorghum halepense L. Pers. in maize. Weed Res., 35(2): 99-103.FAOSTAT. 2017. The Food and Agricultural Organization of the United Nations: The statistical database [Online]. Available at http://faostat.fao.orgFongod A.N. (2004). Taxonomy and ecology of weeds in banana production systems in South Western Cameroon. Ph.D. Thesis, University of Buea, Cameroon. Pp. 193Fongod A.N. (2004). Taxonomy and ecology of weeds in banana production systems in South Western Cameroon. Ph.D. Thesis, University of Buea, Cameroon. Pp. 193.Fried G., Norton L.R., Reboud X. (2008). Environmental and management factors determining weed species composition and diversity in France. Agriculture, Ecosystems and Environment,128: 68–76.Gardner J.G., Nelson G.C. (2008). Herbicides, glyphosate resistance and acute mammalian toxicity: Simulating an environmental effect of glyphosate-resistant weeds in the USA. Pest Manag. Sci., 64(4): 470-478.Gaur B.L., Rao D.S., Kaushik M.K. (1991). Comparative efficacy of pre-and postemergence herbicides in controlling weeds in rainy-season maize (Zea mays L.). Indian J. Argon, 36: 261-262.Gharde Y., Singh P.K., Dubey R.P., Gupta P.K. (2018). Assessment of yield and economic losses in agriculture due to weeds in India. Crop Protection, 107: 12-18 Ghosheh H.Z., Holshouser, Chandler J.M. (1996). The critical period of Johnsongrass (Sorghum halepense) control in field corn (Zea mays L.). Weed Sci., 44(4): 944-947.Gianessi L.P. (2008). Economic impacts of glyphosate-resistant crops. Pest Manag. Sci, 64(4): 346-352.Hansson D., Svensson S. E. (2004). Steaming soil in narrow strips for intra-row weed control in sugar beet. In: EWRS Workshop on physical and cultural weed control, 6., Lillehammer, 2004.Harker K.N., O’Donovan J.T., Blackshaw R.E., Beckie H.J., Mallory-Smith C., Maxwell B.D. (2012). Our view. Weed Sci., 60: 143–4.Intodia S.K., Yadav L.R., Tomar O.P. (1996). Effect of herbicides on weed control efficiency and yield in maize (Zea mays L.)–soybean (Glycine max) intercropping system. Indian J. Agric. Sci., 60(12): 730-731.Kamble T.C., Kakade S.U., Nemade S.U., Pawar R.V., Apotikar V.A. (2005). A integrated weed management in hybrid maize. Crop Res. Hisar, 29(3): 396-400.Kandasamy O.S., Chandrasekhar C.N. (1998). Comparative efficacy of chemical and non-chemical methods of weed management in rainfed maize (Zea mays L.). Indian J. Weed Sci., 30: 201-203.Karlen D. L., Cambardella C. A., Bull C. T., Chase C. A., Gibson L. R., Delate K. (2007). Producer–Researcher Interactions in On-Farm Research. Agronomy Journal, 99(3):779-790.Knezevic S.Z., Evans S.P., Blankenship E.E., Van Acker R.C., Lindquist J.L. (2002). Critical period for weed control: the concept and data analysis. Weed Sci., 50:773–786Kolage A.K., Shinde S.H., Bhilare R.L. (2004). Weed management in kharif maize. J. Maharashtra Agric. Univ., 29(1): 110-111.Krishnamurthy S., Krishnamurthy R. (1996). Integrated weed management for the premonsoon sown sorghum – cowpea intercropping system under rainfed vertisols. Madras Agric J., 83(5): 300-302. Kulshrestha G., Parmar B.S. (1992). In: Resource Management of Sustainable Crop Production Souvenir, 1992. Indian Society of Agronomy pp. 339-343. LeBrun M., Sailland A., Freyssinet G. (1997). Mutated 5-enolpyruvylshikimate-3-phosphate synthase, gene coding of said protein and transformed plants containing said gene. International Patent Application WO 97/04103.Letourneau, D. K., Armbrecht, I., Rivera, B. S., Lerma, J. M., Carmona, E. J., Daza, M. C., Mejía, J. L. (2011). Does plant diversity benefit agroecosystems? A synthetic review. Ecological applications, 21(1): 9-21.Liebman M., Baraibar B., Buckley Y., Childs D., Christensen S., Cousens R., Eizenberg H., Heijting S., Loddo D., Merotto Jr A., Renton M., Riemens M. (2016). Ecologically sustainable weed management: How do we get from proof-of-concept to adoption? Ecol. Appl., 26: 1352–69. Malviya A., Singh B. (2007). Weed dynamics, productivity and economics of maize (Zea mays) as affected by integrated weed management under rainfed condition. Indian J. Agron., 52(4): 321- 324.Mathiassen S. K., Bak T., Christensen S., Kudsk P. (2006). The effect of laser treatment as a weed control method. Biosystems Engineering, 95(4): 497-505.Mertens S. K., Jansen J. H. (2002). Weed seed production, crop planting pattern, and mechanical weeding in wheat. Weed Science, 50(6): 748-756.Mukhtar A. M., Eltahir S. A., Siraj O. M., Hamada, A. A. (2007). Effect of weeds on growth and yield of maize (Zea mays L) in Northern State, Sudan. Sudan Journal of Agricultural Research, 8:1-7. Mundra S.L., Vyas A.K., Maliwal P.C. (2002). Effect of weed and nutrient management on nutrient uptake by maize (Zea mays L.) and weeds. Indian. J. Agron., 47(3): 378-383.Ndam L. M., Enang J. E., Mih A. M., Egbe A. E. (2014). Weed diversity in maize (Zea mays L.) fields in South Western Cameroon. International Journal of Current Microbiology and Applied Sciences, 3: 173¬180.Ndam, L. M., Enang J. E., Mih A. M., Egbe E. A. (2014). Weed diversity in maize (Zea mays L.) fields in South Western Cameroon. International Journal of Current Microbiology and Applied Sciences, 3: 173-180.Ņečajeva J., Mintāle Z., Dudele I., Isoda-Krasovska A., Čūrišķe J., Rancāns K., Kauliņa I., Morozova O., Spuriņa L. (2015). Factors influencing weed species diversity in southeastern part of Latvia: analysis of a two-year weed survey data. Acta Biol. Univ. Daugavp., 15 (1): 147 – 156.Oerke E.C., Dehne H.W. (2004). Safeguarding production losses in major crops and the role of crop protection. Crop Prot., 23: 275-85.Pandey A.K., Prakash V., Gupta H.S. (2002). Effect of integrated weed management practices on yield and economics of baby corn (Zea mays). Indian J. Agron., 46(2): 260-265.Paradkar V.K., Sharma R.K. (1993). Integrated weed management in maize. Indian. J. Weed Sci., 25(3and4): 81-83.Patel V.J., Upadhyaya P.N., Patel J.B., Meisuriya M.I. (2006). Effect of herbicide mixtures on weeds in Kharif maize under middle Gujarat conditions. Indian Journal of Weed Science, 38(1and2):54-57.Pérez-Ruiz M., Slaughter D. C., Gliever C. J., Upadhyaya S. K. (2012). Automatic GPS-based intra-row weed knife control system for transplanted row crops. Computers and Electronics in Agriculture, 80: 41-49.Porwal M.K. (2000). Economics of weed control measures in winter maize (Zea mays). Indian J. Agron,. 45(2): 344-347.Ramakrishna A., Tam H.M., Wani S.P., Long T.D. (2006). Effect of mulch on soil temperature, moisture, weed infestation and yield of groundnut in northern Vietnam. Field Crops Research, 95: 115–125.Reddy S.K., Sundari S.V., Kumar S. (2002). Evaluation of suitable weed management programme in hybrid maize Indian. J. Weed. Sci., 34(3 and 4): 307-308.Saha G.P., Srivastava V.C. (1992). Relative efficiency of chemical and cultural were control in rainfed maize. Indian J. Agron., 37(4): 818-819.Saini J.P., Angiras N.N. (1998). Efficacy of herbicides alone and in mixtures to control weeds in maize under mid-hill conditions of Himachal Pradesh. Indian J. Weed Sci., 30(1/2): 65-68.Sandhu K.S., Bhatia R.K. (1991). Chemical weed control in transplants winter maize. Indian J. Weed Sci. 23(3and4): 53-55.Sarma C.K., Gautam R.C. (2010). Weed growth, yield and nutrient uptake in maize (Zea mays) as influenced by tillage, seed rate and weed control methods. Indian J. Agron., 55(4): 299-303.Schnable PS, Ware D, Fulton RS et al (2009) The B73 maize genome: complexity, diversity and dynamics. Science 326:1112–1115 Shad R.A., Chatha M.Q., Nawaz H. (1993). Weed management studies in maize. Pakistan J. Agric. Res., 14(1): 44-50.Shaner D.L. (2014). Lessons learned from the history of herbicide resistance. Weed Sci. 62: 427–31.Sharma A.R., Toor A.S., Sur H. (2000). Effect of interculture operations and scheduling of Atrazine application on weed control and productivity of rainfed maize (Zea mays L.) in Shiwalik foot hills of Punjab. Indian J. Agril. Sci., 70(1): 757-761Sharma J., Nayital S.C. (1993). Crop weed competition in maize (Zea mays) + blackgram (Phaseolus mungo) intercropping system. Indian J. Agron., 36: 64-67.Singh B., Singh C.M., Bhargava M., Sood R.D. (1991). Integrated weed control in rainfed maize. Himachal J. Agric. Res. 17(1): 1-2.Singh R.V., Arya M.P.S. (1994). Studies on the chemical weed control in fingermillet under rainfed condition. Indian J. Weed Sci., 26(3and4): 45-51.Sinha S.P., Prasad S.M., Singh S.J., Sinha K.K. (2003). Integrated weed management in winter maize (Zea mays L.) in North Bihar. Indian J. Weed. Sci., 35 (3/4): 273-274.Smeda R. J., Weston L. A. (1995). Weed management systems for horticultural crops. In: Smith, A. E. (Ed.). Handbook of weed management systems. New York: Marcel Dekker, 1995. p. 553-570.Sohrab M., Ali R. (2009). Estimation of critical period for weed control in Corn in Iran. World Academy of Science, Engineering and Technology, 49; 67-72.Sreenivas G., Satyanarayana V. (1994). Nutrient removal by weeds and maize (Zea mays). Indian J. Agron., 41(1): 160-162.Statista. (2018). Worldwide production of grain in 2017/18, by type (in million metric tons). https://www.statista.com/statistics/263977/world-grain-production-by-type/Stephenson DO, Bond J.A. (2012). Evaluation of thiencarbazone-methyl- and isoxaflutole-based herbicide programs in corn. Weed Technology, 26(1): 37–42.Subramanyam D., Reddy M., Reddy R. (2001). Economics of weed management practices in irrigated maize (Zea mays L.). Andhra Agric. J., 48(3and4): 318-320.Sutton P., Richards C., Buren L., Glasgow L. (2002). Activity of mesotrione on resistant weeds in maize. Pest Management Science, 58(9): 981–984.Swanton C.J., Gulden R.H., Chandler K. (2007). A rationale for atrazine stewardship in corn. Weed Science, 55(1): 75–81.Swanton C.J., Murphy S.D. (1996). Weed science beyond the weeds: the role of integrated weed management (IWM) in agroecosystem health. Weed Sci., 44:437–445.Swanton C.J., Weise S.F. (1991). Integrated weed management: the rationale and approach. Weed Technol., 5: 657-663.Tapia L.S., Bauman T.T., Harvey R.G., Laux M.M., Kells J.J., Owen D.D., Strachen S.D. (1997). Post emergence herbicides application timing effects on annual grass control and corn grain yield. Weed Sci., 45:138-143.Thakur D. R. (1994). Weed management in intercropping system based on maize (Zea mays L.) under rainfed mid hill condition. Indian J. Agron., 39(2): 203-206.Thakur D.R., Singh K.K. (1989). Effects of weed management systems on weeds under varying fertilizer levels in rainfed maize. Indian J. Weed Sci., 21(3and4): 10-14.Thapa C.B. (2001). Weed flora of maize Field in Pokhara, Nepal. Nepal Journal of Science and Technology, 3:9-14Tyagi R.C., Tyagi A.K., Karwasra R.S., Singh B.R. (1993). Crop weed competition in maize. In Integrated Weed Management for Sustainable Agriculture. Proc. of Indian Soc. of Weed Sci. International Symp., Hissar, India, pp.18-20.Verdú A. M., Mas, M. T. (2007). Mulching as an alternative technique for weed management in mandarin orchard tree rows. Agronomy for Sustainable Development, 27(4): 367-375.Vyn J.D., Swanton C.J., Weaver S.E., Sikkema P.H. (2006).Control of Amaranthus tuberculatus var. rudis (common waterhemp) with pre and post emergence herbicides in Zea mays L. (maize). Crop Protection, 25(9): 1051–1056.Walia U.S., Singh S., Singh B. (2007). Integrated control of hardy weeds in maize (Zea mays L.). Indian J. Weed Sci., 39(1and2): 17-20.Walsh M.J., Stratford K., Stone K., Powles S.B. (2012).Synergistic effects of atrazine and mesotrione on susceptible and resistant wild radish (Raphanus raphanistrum) populations and the potential for overcoming resistance to triazine herbicides. Weed Technology, 26(2): 341–347.Weaver S.E., Tan C.S. (1983). Critical period of weed interference in transplanted tomatoes (Lycopersicon esculentum): Growth analysis. Weed Sci., 31: 476-481.Weaver S.E., Tan C.S. (1987). Critical period of weed interference in field seeded tomatoes and its relation to water stress and shading. Canadian J. Plant Sci., 67: 575-583.Werth J., Keenan M., Thornby D., Bell K., Walker S. (2017). Emergence of four weed species in response to rainfall and temperature. Weed Biology and Management, 17(1): 29-35.Whaley C.M., Armel G.R., Wilson H.P., Hines T.E. (2006). Comparison of mesotrione combinations with standard weed control programs in corn. Weed Techn., 20(3): 605-611. Whaley C.M., Armel G.R., Wilson H.P., Hines T.E. (2009). Evaluation of S-metolachlor plus atrazine mixtures with mesotrione for broadleaf weed control in corn. Weed Techn., 23(2): 193-196.Wiles L.J. (2004). Economics of Weed Management: Principles and Practices. Weed Technology, 18:1403–1407.Woodyard A.J., Bollero G.A., Riechers D.E. (2009). Broadleaf weed management in corn utilizing synergistic Postemergence herbicide combinations. Weed Techn., 23:513-518.Yaduraju N.T. (2012). Weed management perspectives for India in the changing agriculture scenario in the country. Pakistan Journal of Weed Science, 18: 703-710.Zimdahl R.L. (2004). Weed Crop Competition: A Review, 2nd ed. Blackwell Publishing. p. 220.
Toplam 1 adet kaynakça vardır.

Ayrıntılar

Birincil Dil İngilizce
Konular Ziraat Mühendisliği
Bölüm Derleme
Yazarlar

Jiban Shrestha

Krishna Prasad Timsina Bu kişi benim

Subash Subedi

Dipesh Pokhrel Bu kişi benim

Amit Chaudhary Bu kişi benim

Yayımlanma Tarihi 4 Temmuz 2019
Kabul Tarihi 29 Mart 2019
Yayımlandığı Sayı Yıl 2019 Cilt: 22 Sayı: 1

Kaynak Göster

APA Shrestha, J., Timsina, K. P., Subedi, S., Pokhrel, D., vd. (2019). Sustainable Weed Management in Maize (Zea mays L.) Production: A Review in Perspective of Southern Asia. Turkish Journal of Weed Science, 22(1), 133-143.

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