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References
- Arif, M., Cheema, Z.A., Khaliq, A. & Hassan, A. (2015). Organic weed management in wheat through allelopathy. International Journal of Agriculture and Biology, 17(1):127-134.
- Asgharipour, M.R. & Armin, M. (2010). Inhibitory effects of Sorghum halepens root and leaf extracts on germination and early seedling growth of widely used medicinal plants. Advances in Environmental Biology, 4(2):316-325.
- Bhadoria, P. B. S. (2011). Allelopathy: A natural way towards weed management. American Journal of Experimental Agriculture, 1:7-20.
- Cheema, Z.A. & Khaliq, A. (2000). Use of sorghum allelopathic properties to control weeds in irrigated wheat in a semi arid region of Punjab. Agriculture, Ecosystems & Environment, 79(2-3):105-112.
- Cheema, Z.A., A. Khaliq, A., Abbas, M. & Farooq, M. (2007). Allelopathic potential of sorghum (Sorghum bicolor L. Moench) cultivars for weed management. Allelopathy Journal, 20(1):167.
- Cheng, F. & Cheng, Z. (2015). Research progress on the use of plant allelopathy in agriculture and the physiological and ecological mechanisms of allelopathy. Frontiers in Plant Science, 6:1020.
- Djajuli, M. (2011). Alelopati pada beberapa tanaman perkebunan dan teknik pengendalian serta prospek pemanfaatannya. Perspektif, 10(1):44-50.
- Emendack,Y., Hayes, C., Chopra, R., Sanchez, J., Burou, G., Xin, Z. & Burke, J.J. (2017). Early seedling growth characteristics relate to the staygreen trait and Durrin levels in sorghum. Crop Sci, 57(1):404-415.
- Farhoudi, R. & Lee, D.J. (2013). Allelopathic effects of barley extract (Hordeum vulgare) on sucrose synthase activity, lipid peroxidation and antioxidant enzymatic activities of Hordeum spontoneum and Avena ludoviciana. Proceedings of the National Academy of Science, India, 83:447-452.
- Farooq, M., Khan, I., Nawaz, A. & Siddique, K.H.M. (2020). Using sorghum to suppress weeds in autumn planted maize. Crop Protection, 133:1-7.
- Hagan. D. L., Jose, S. & Lin, C.H. (2013). Allelopathic exudates of cogongrass (Imperata cylindrica): Implications for the performance of native pine savanna plant species in the southeastern US. Journal of Chemical Ecology, 39(2):312-22.
- Heap, I. (2019). International survey of herbicide resistant weeds. Retrieved from http://www.weedscience. org.
- Jabran, K., Mahajan, G., Sardana, V. & Chauhan, B.S. (2015). Allelopathy for weed control in agricultural systems. Crop Protection, 72:57-65.
- Kilkoda, A. K. (2015). Respon alelopati gulma Ageratum conyzoides dan Borreria alata terhadap pertumbuhan dan hasil tiga varietas kedelai (Glycine max). Jurnal Agro, 2(1):39-49.
- Macías, F.A., Molinillo, J.M., Varela, R.M. & Galindo, J.C. (2007). Allelopathy—a natural alternative for weed control. Pest Management Science, 3(4): 327-348.
- Mubeen, K., Nadeem, M.A., Tanveer, A. & Zahir, Z.A. (2012). Allelopathic effects of sorghum and sunflower water extracts on germination and seedling growth of rice (Oryza sativa L.) and three weed species. The Journal of Animal and Plant Sciences, 22(3)738-746.
- Murimwa, J. C., Rugare, J.T., Mabasa, S. & Mandumbu, R. (2019). Allelopathic effects of aqueous extracts of sorghum (Sorghum bicolor L. Moench) on the early seedling growth of sesame (Sesamum indicum L.) varieties and selected weeds. Hindawi International Journal of Agronomy, Vol 2019:1-12. DOI: https://doi.org/10.1155/2019/5494756
- Nielsen, L.J., Stuart, P., Pi?manová, M., Rasmussen, S., Olsen, C.E.,
- Harholt, J., Møller, B.L. & Bjarnholt, N. (2016). Dhurrin Metabolism in The Developing Grain of Sorghum bicolor (L.) Moench Investigated by Metabolite Profiling and Novel Clustering Analyses of Time-Resolved Transcriptomic Data. BMC genomics, 17(1):10-21.
- Nornasuha, Y. & Ismail, B.S. (2017). Sustainable Weed management using Allelopathic Approach. Malays Appl Biol, 46(2): 1–10.
- Oerke, E. C. 2005. Crop losses to pests. Journal of Agricultural Science, 144:31-43.
- Rajjou, L., Duval, M., Gallardo, K., Catusse, J., Bally, J., Job, C. & Job, D. (2012). Seed Germination and Vigor. Annu. Rev. Plant Biol. 63:507–33.
- Randhawa, M.A., Cheemma, Z.A. & Ali, M.A. (2012). Allelophathic effect of sorghum water extract on the germination and seedling growth of Trianthema portulacastrum. International Journal of griculture and Biological, 4(3):384.
- Rao, S.S., Patil, J.V., Umakanth, A.V., Mishra, J.S., Ratnavathi, C.V., Prasad, G.S. & Rao, B.D. (2013). Comparative performance of sweet sorghum hybrids and open pollinated varieties for millable stalk yield, biomass, sugar quality traits, grain yield and bioethanol production in tropical Indian condition. Sugar Tech., 15: 250-257.
- Schulz, M., Marocco, A., Tabaglio, V. Macias, F. A. and Molinillo, J. M. (2013). Benzoxazinoids in rye allelopathy - From discovery to application in sustainable weed control and organic farming. Journal of Chemical Ecology, 39:154-174.
- Silva, R.M.G., Brigatti, J.G.F., Gustavo, V. H.M., Mecina, F. & , L.P. (2013). Allelopathic effect of the peel of coffee fruit. Scientia Horticulturae, 158:39-44.
- Simarmata, M., Sitanggang, C.D & Djamilah. (2015). The Shifting of Weed Compositions and Biomass Production in Sweet Corn Field Treated with Organic Compost and Chemical Weed Control. Agrivita, Journal of Agriculture Science, 37(3):226-236.
- Simarmata, M., Barchia, F.M., & Simatupang, S.N. (2017). Prospect for Growing Sorghum (Sorghum bicolor L. Moench) at Marginal Dry Land in Coastal Area Retrieved with Organic Soil Amendments. Asian Journal of Crop Science, 9(4):118-124.
- Nurjanah, U., Setyowati, N. and Simarmata, M. (2020). Allelopathic potential of aqueous extract of Archidendron jiringa (Jering) pods for weed control in the swamp paddy field. IJAT, 16(5):1153-1164.
- Wang, P., Kong, C.H., Hu, F. and Xu, X. H. (2007). Allontin involved in species interactions with rice and other organisms in paddy soil. Plant Soil, 296:43-51.
- Weston, L.A., Alsaadawi, I.S. & Baerson, S.R. (2013). Sorghum allelopathy—from ecosystem to molecule. Journal of Chemical Ecology, 39(2):142-153.
- Won, O.J., Uddin, M.R., Park, K.M., Pyon, J.Y. & Park, S.U. (2013). Phenolic compounds in sorghum leaf extracts and their effects on weed control. Allelopathy Journal, 31(1):147-156
References
Arif, M., Cheema, Z.A., Khaliq, A. & Hassan, A. (2015). Organic weed management in wheat through allelopathy. International Journal of Agriculture and Biology, 17(1):127-134.
Asgharipour, M.R. & Armin, M. (2010). Inhibitory effects of Sorghum halepens root and leaf extracts on germination and early seedling growth of widely used medicinal plants. Advances in Environmental Biology, 4(2):316-325.
Bhadoria, P. B. S. (2011). Allelopathy: A natural way towards weed management. American Journal of Experimental Agriculture, 1:7-20.
Cheema, Z.A. & Khaliq, A. (2000). Use of sorghum allelopathic properties to control weeds in irrigated wheat in a semi arid region of Punjab. Agriculture, Ecosystems & Environment, 79(2-3):105-112.
Cheema, Z.A., A. Khaliq, A., Abbas, M. & Farooq, M. (2007). Allelopathic potential of sorghum (Sorghum bicolor L. Moench) cultivars for weed management. Allelopathy Journal, 20(1):167.
Cheng, F. & Cheng, Z. (2015). Research progress on the use of plant allelopathy in agriculture and the physiological and ecological mechanisms of allelopathy. Frontiers in Plant Science, 6:1020.
Djajuli, M. (2011). Alelopati pada beberapa tanaman perkebunan dan teknik pengendalian serta prospek pemanfaatannya. Perspektif, 10(1):44-50.
Emendack,Y., Hayes, C., Chopra, R., Sanchez, J., Burou, G., Xin, Z. & Burke, J.J. (2017). Early seedling growth characteristics relate to the staygreen trait and Durrin levels in sorghum. Crop Sci, 57(1):404-415.
Farhoudi, R. & Lee, D.J. (2013). Allelopathic effects of barley extract (Hordeum vulgare) on sucrose synthase activity, lipid peroxidation and antioxidant enzymatic activities of Hordeum spontoneum and Avena ludoviciana. Proceedings of the National Academy of Science, India, 83:447-452.
Farooq, M., Khan, I., Nawaz, A. & Siddique, K.H.M. (2020). Using sorghum to suppress weeds in autumn planted maize. Crop Protection, 133:1-7.
Hagan. D. L., Jose, S. & Lin, C.H. (2013). Allelopathic exudates of cogongrass (Imperata cylindrica): Implications for the performance of native pine savanna plant species in the southeastern US. Journal of Chemical Ecology, 39(2):312-22.
Heap, I. (2019). International survey of herbicide resistant weeds. Retrieved from http://www.weedscience. org.
Jabran, K., Mahajan, G., Sardana, V. & Chauhan, B.S. (2015). Allelopathy for weed control in agricultural systems. Crop Protection, 72:57-65.
Kilkoda, A. K. (2015). Respon alelopati gulma Ageratum conyzoides dan Borreria alata terhadap pertumbuhan dan hasil tiga varietas kedelai (Glycine max). Jurnal Agro, 2(1):39-49.
Macías, F.A., Molinillo, J.M., Varela, R.M. & Galindo, J.C. (2007). Allelopathy—a natural alternative for weed control. Pest Management Science, 3(4): 327-348.
Mubeen, K., Nadeem, M.A., Tanveer, A. & Zahir, Z.A. (2012). Allelopathic effects of sorghum and sunflower water extracts on germination and seedling growth of rice (Oryza sativa L.) and three weed species. The Journal of Animal and Plant Sciences, 22(3)738-746.
Murimwa, J. C., Rugare, J.T., Mabasa, S. & Mandumbu, R. (2019). Allelopathic effects of aqueous extracts of sorghum (Sorghum bicolor L. Moench) on the early seedling growth of sesame (Sesamum indicum L.) varieties and selected weeds. Hindawi International Journal of Agronomy, Vol 2019:1-12. DOI: https://doi.org/10.1155/2019/5494756
Nielsen, L.J., Stuart, P., Pi?manová, M., Rasmussen, S., Olsen, C.E.,
Harholt, J., Møller, B.L. & Bjarnholt, N. (2016). Dhurrin Metabolism in The Developing Grain of Sorghum bicolor (L.) Moench Investigated by Metabolite Profiling and Novel Clustering Analyses of Time-Resolved Transcriptomic Data. BMC genomics, 17(1):10-21.
Nornasuha, Y. & Ismail, B.S. (2017). Sustainable Weed management using Allelopathic Approach. Malays Appl Biol, 46(2): 1–10.
Oerke, E. C. 2005. Crop losses to pests. Journal of Agricultural Science, 144:31-43.
Rajjou, L., Duval, M., Gallardo, K., Catusse, J., Bally, J., Job, C. & Job, D. (2012). Seed Germination and Vigor. Annu. Rev. Plant Biol. 63:507–33.
Randhawa, M.A., Cheemma, Z.A. & Ali, M.A. (2012). Allelophathic effect of sorghum water extract on the germination and seedling growth of Trianthema portulacastrum. International Journal of griculture and Biological, 4(3):384.
Rao, S.S., Patil, J.V., Umakanth, A.V., Mishra, J.S., Ratnavathi, C.V., Prasad, G.S. & Rao, B.D. (2013). Comparative performance of sweet sorghum hybrids and open pollinated varieties for millable stalk yield, biomass, sugar quality traits, grain yield and bioethanol production in tropical Indian condition. Sugar Tech., 15: 250-257.
Schulz, M., Marocco, A., Tabaglio, V. Macias, F. A. and Molinillo, J. M. (2013). Benzoxazinoids in rye allelopathy - From discovery to application in sustainable weed control and organic farming. Journal of Chemical Ecology, 39:154-174.
Silva, R.M.G., Brigatti, J.G.F., Gustavo, V. H.M., Mecina, F. & , L.P. (2013). Allelopathic effect of the peel of coffee fruit. Scientia Horticulturae, 158:39-44.
Simarmata, M., Sitanggang, C.D & Djamilah. (2015). The Shifting of Weed Compositions and Biomass Production in Sweet Corn Field Treated with Organic Compost and Chemical Weed Control. Agrivita, Journal of Agriculture Science, 37(3):226-236.
Simarmata, M., Barchia, F.M., & Simatupang, S.N. (2017). Prospect for Growing Sorghum (Sorghum bicolor L. Moench) at Marginal Dry Land in Coastal Area Retrieved with Organic Soil Amendments. Asian Journal of Crop Science, 9(4):118-124.
Nurjanah, U., Setyowati, N. and Simarmata, M. (2020). Allelopathic potential of aqueous extract of Archidendron jiringa (Jering) pods for weed control in the swamp paddy field. IJAT, 16(5):1153-1164.
Wang, P., Kong, C.H., Hu, F. and Xu, X. H. (2007). Allontin involved in species interactions with rice and other organisms in paddy soil. Plant Soil, 296:43-51.
Weston, L.A., Alsaadawi, I.S. & Baerson, S.R. (2013). Sorghum allelopathy—from ecosystem to molecule. Journal of Chemical Ecology, 39(2):142-153.
Won, O.J., Uddin, M.R., Park, K.M., Pyon, J.Y. & Park, S.U. (2013). Phenolic compounds in sorghum leaf extracts and their effects on weed control. Allelopathy Journal, 31(1):147-156