Weed control in sweet maize (Zea mays var. succharata) eco-farming
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Sustainability in agricultural systems is largely based on increasing biodiversity and reduc ing the input of agrochemicals. Weed species occurrence and distribution in fields is driven by
anthropogenic factor and cropping measures applied for high yield achievement. In sustainable
cropping systems with cultivation of specific maize varieties such as sweet maize, special at tention has been usually paid to weed control because these genotypes are additionally sen sitive to herbicides. Sweet maize is mainly consumed directly by humans and its cultivation is
supposed to be conducted without chemical control of weeds, giving advantage to cover crops.
Cover crops influence weed infestation level through competition for space, light, water, and
minerals. The aim of the investigation was to identify the most effective species or mixtures of
cover crops in weed control of sweet maize in the present agro-ecological conditions. The ex periment was conducted at the Maize Research Ins...titute Zemun Polje, Belgrade, Serbia during
2014-2016. Sweet maize was grown after different cover crops: V1-common vetch (Vicia sativa
L.), V2-field pea (Pisum sativum L.), V3-winter oats (Avena sativa L.), V4-fodder kale (Brassica
oleracea convar. acephala L.), V5-common vetch+oats and V6-field pea+oats, V7- straw and
V8- bare soil as a control. The preceding crop was winter wheat and each treatment had three
repetitions. Sowing of cover crops was done in autumn while incorporation by ploughing was
performed in spring, one week before sweet maize sowing (hybrid ZP SC 421su)in a density of
65.000 plants ha-1. Six weeks after sowing, the weed association composition was analysed
by weed species, number of individuals, and biomass determination per m2. After that, weeds
were removed by hand hoeing and herbicides were not applied. The 19 weed species were
determined during the investigation while seven species were present in each year and made
a base of association: Solanum nigrum L., Sorghum halepense (Pers.) L., Chenopodium album
L., C. hybridum L., Amaranthus retroflexus L., A. hybridusL. and A. albus L.. Number of weed
species, weed individuals and their biomass were significantly affected by year, cover crop, and
their interaction. The highest number of individuals was detected in 2016 which was favourable
regarding sum and distribution of precipitation. V1, V2 and V3 were the most efficient cover
crop treatments in weed control, with the lowest number of weed species and individuals. In
average for three years, weed biomass was significantly reduced after cultivation of field pea,
V2 (820.2 g m-2) and its mixture with oats, V6 (794.3 g m-2) in comparison to control, bare soil,
V8 (1582.6 g m-2).
Keywords:
Sweet maize / Weeds / Sustainable cropping systems / Cover cropsSource:
19. EWRS Symposium 2022 “Lighting the future of weed science”, Athens, 20-23.06.2022. - Book of abstracts, 2022, 132-132Funding / projects:
- Ministry of Science, Technological Development and Innovation of the Republic of Serbia, institutional funding - 200040 (Maize Research Institute 'Zemun Polje', Belgrade-Zemun) (RS-MESTD-inst-2020-200040)
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MRIZPTY - CONF AU - Simić, Milena AU - Brankov, Milan AU - Dragičević, Vesna PY - 2022 UR - http://rik.mrizp.rs/handle/123456789/996 AB - Sustainability in agricultural systems is largely based on increasing biodiversity and reduc ing the input of agrochemicals. Weed species occurrence and distribution in fields is driven by anthropogenic factor and cropping measures applied for high yield achievement. In sustainable cropping systems with cultivation of specific maize varieties such as sweet maize, special at tention has been usually paid to weed control because these genotypes are additionally sen sitive to herbicides. Sweet maize is mainly consumed directly by humans and its cultivation is supposed to be conducted without chemical control of weeds, giving advantage to cover crops. Cover crops influence weed infestation level through competition for space, light, water, and minerals. The aim of the investigation was to identify the most effective species or mixtures of cover crops in weed control of sweet maize in the present agro-ecological conditions. The ex periment was conducted at the Maize Research Institute Zemun Polje, Belgrade, Serbia during 2014-2016. Sweet maize was grown after different cover crops: V1-common vetch (Vicia sativa L.), V2-field pea (Pisum sativum L.), V3-winter oats (Avena sativa L.), V4-fodder kale (Brassica oleracea convar. acephala L.), V5-common vetch+oats and V6-field pea+oats, V7- straw and V8- bare soil as a control. The preceding crop was winter wheat and each treatment had three repetitions. Sowing of cover crops was done in autumn while incorporation by ploughing was performed in spring, one week before sweet maize sowing (hybrid ZP SC 421su)in a density of 65.000 plants ha-1. Six weeks after sowing, the weed association composition was analysed by weed species, number of individuals, and biomass determination per m2. After that, weeds were removed by hand hoeing and herbicides were not applied. The 19 weed species were determined during the investigation while seven species were present in each year and made a base of association: Solanum nigrum L., Sorghum halepense (Pers.) L., Chenopodium album L., C. hybridum L., Amaranthus retroflexus L., A. hybridusL. and A. albus L.. Number of weed species, weed individuals and their biomass were significantly affected by year, cover crop, and their interaction. The highest number of individuals was detected in 2016 which was favourable regarding sum and distribution of precipitation. V1, V2 and V3 were the most efficient cover crop treatments in weed control, with the lowest number of weed species and individuals. In average for three years, weed biomass was significantly reduced after cultivation of field pea, V2 (820.2 g m-2) and its mixture with oats, V6 (794.3 g m-2) in comparison to control, bare soil, V8 (1582.6 g m-2). C3 - 19. EWRS Symposium 2022 “Lighting the future of weed science”, Athens, 20-23.06.2022. - Book of abstracts T1 - Weed control in sweet maize (Zea mays var. succharata) eco-farming SP - 132 EP - 132 UR - https://hdl.handle.net/21.15107/rcub_rik_996 ER -
@conference{ author = "Simić, Milena and Brankov, Milan and Dragičević, Vesna", year = "2022", abstract = "Sustainability in agricultural systems is largely based on increasing biodiversity and reduc ing the input of agrochemicals. Weed species occurrence and distribution in fields is driven by anthropogenic factor and cropping measures applied for high yield achievement. In sustainable cropping systems with cultivation of specific maize varieties such as sweet maize, special at tention has been usually paid to weed control because these genotypes are additionally sen sitive to herbicides. Sweet maize is mainly consumed directly by humans and its cultivation is supposed to be conducted without chemical control of weeds, giving advantage to cover crops. Cover crops influence weed infestation level through competition for space, light, water, and minerals. The aim of the investigation was to identify the most effective species or mixtures of cover crops in weed control of sweet maize in the present agro-ecological conditions. The ex periment was conducted at the Maize Research Institute Zemun Polje, Belgrade, Serbia during 2014-2016. Sweet maize was grown after different cover crops: V1-common vetch (Vicia sativa L.), V2-field pea (Pisum sativum L.), V3-winter oats (Avena sativa L.), V4-fodder kale (Brassica oleracea convar. acephala L.), V5-common vetch+oats and V6-field pea+oats, V7- straw and V8- bare soil as a control. The preceding crop was winter wheat and each treatment had three repetitions. Sowing of cover crops was done in autumn while incorporation by ploughing was performed in spring, one week before sweet maize sowing (hybrid ZP SC 421su)in a density of 65.000 plants ha-1. Six weeks after sowing, the weed association composition was analysed by weed species, number of individuals, and biomass determination per m2. After that, weeds were removed by hand hoeing and herbicides were not applied. The 19 weed species were determined during the investigation while seven species were present in each year and made a base of association: Solanum nigrum L., Sorghum halepense (Pers.) L., Chenopodium album L., C. hybridum L., Amaranthus retroflexus L., A. hybridusL. and A. albus L.. Number of weed species, weed individuals and their biomass were significantly affected by year, cover crop, and their interaction. The highest number of individuals was detected in 2016 which was favourable regarding sum and distribution of precipitation. V1, V2 and V3 were the most efficient cover crop treatments in weed control, with the lowest number of weed species and individuals. In average for three years, weed biomass was significantly reduced after cultivation of field pea, V2 (820.2 g m-2) and its mixture with oats, V6 (794.3 g m-2) in comparison to control, bare soil, V8 (1582.6 g m-2).", journal = "19. EWRS Symposium 2022 “Lighting the future of weed science”, Athens, 20-23.06.2022. - Book of abstracts", title = "Weed control in sweet maize (Zea mays var. succharata) eco-farming", pages = "132-132", url = "https://hdl.handle.net/21.15107/rcub_rik_996" }
Simić, M., Brankov, M.,& Dragičević, V.. (2022). Weed control in sweet maize (Zea mays var. succharata) eco-farming. in 19. EWRS Symposium 2022 “Lighting the future of weed science”, Athens, 20-23.06.2022. - Book of abstracts, 132-132. https://hdl.handle.net/21.15107/rcub_rik_996
Simić M, Brankov M, Dragičević V. Weed control in sweet maize (Zea mays var. succharata) eco-farming. in 19. EWRS Symposium 2022 “Lighting the future of weed science”, Athens, 20-23.06.2022. - Book of abstracts. 2022;:132-132. https://hdl.handle.net/21.15107/rcub_rik_996 .
Simić, Milena, Brankov, Milan, Dragičević, Vesna, "Weed control in sweet maize (Zea mays var. succharata) eco-farming" in 19. EWRS Symposium 2022 “Lighting the future of weed science”, Athens, 20-23.06.2022. - Book of abstracts (2022):132-132, https://hdl.handle.net/21.15107/rcub_rik_996 .