Inhibiting effect of shallow seed burial on grass weed emergence

Loddo, Donato; Vasileiadis, Vasileios; Masin, Roberta; Zuin, M. C.; Zanin, Giuseppe

doi:10.17221/78/2015-pps

Cited by 3 publications

(3 citation statements)

References 17 publications

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“…At heavily infested sites, tilling the field six times at 2-week intervals reduced S. halepense rhizome production by 90% (McWhorter 1973). During summer, superficial tillage affected the emergence of S. halepense, with 15% seedling emergence from a 10-cm burial depth (Loddo et al 2016). Furthermore, collection of rhizome fragments after mechanical tillage helped reduce S. halepense reinfestation in an organic red pepper (Capsicum annuum L.) cultivation system of Turkey (Arpaci et al 2016).…”

Section: Mechanical Approachesmentioning

confidence: 99%

Eco-biology, impact, and management of Sorghum halepense (L.) Pers.

et al. 2017

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Sorghum halepense (L.) Pers. is ranked among the worst and extensively disseminated weed species. It is emerging as a potential menace for agroecosystems in 53 different countries across the world. This weed is adapted to warmer regions and is native to Mediterranean areas of Africa, Asia, and Europe. In the mid-1900s, cultivation of this weed species as a potential forage crop resulted in its escape from crop fields and invasion of agricultural and natural areas, but in some European countries, it has been introduced deliberately (e.g., as contamination of seeds and soil). S. halepense interferes with economically important agronomic and horticultural crops and cause 57-88% yield losses. Herbicide tolerance, diverse propagation mechanisms, rapid development, and strong competitiveness are key attributes in its invasion. Conventional management approaches are limited in their scope to control this weed due to its rapid vegetative growth and increasing herbicidal tolerance. Integration of chemical methods with cultural or mechanical approaches is important for restricting its future spread to non-infested areas. This review provides insights into the invasion mechanisms of S. halepense, which will help in its

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Section: Mechanical Approachesmentioning

confidence: 99%

Eco-biology, impact, and management of Sorghum halepense (L.) Pers.

et al. 2017

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“…Previous studies have described relevant inhibition of seedling emergence from seeds below 5 cm of depth, even for weed species with larger seed size, such as Alopecurus myosuroides Huds., Digitaria sanguinalis (L.) Scop., Echinochloa crus-galli (L.) Beauv., or Setaria viridis (L.) Beauv. [23,49]. Moreover, daily thermal fluctuations are limited at 5 cm of depth in comparison to the soil surface, and these conditions could inhibit species like C. rotundus, which require alternate temperatures to germinate [30].…”

Section: Discussionmentioning

confidence: 99%

“…Weed-crop competition and, consequently, the potential yield loss caused by weeds are strongly affected by the timing and magnitude of weed germination and emergence [20], and several management tactics were studied and adopted to promote or hinder weed germination. Surface soil disturbance can promote weed germination and emergence [21,22], while seed burial due to tillage can notably reduce germination [23]. Cover crop or cash crop residues can inhibit weed germination due to allelopathic effects, if incorporated in the soil, or by reducing soil temperature fluctuation and light penetration, if left on the soil surface as dead mulch [24,25].…”

Section: Introductionmentioning

confidence: 99%

Germination of Chloris barbata, Cynodon dactylon, and Cyperus rotundus from Angola at Constant and Alternate Temperatures

2019

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The study of weed germination can improve knowledge on their seasonal dynamics in fields and facilitate the design of ecologically sustainable management. An experiment was conducted to evaluate the effect of a range of constant and alternate temperatures on the germination of Chloris barbata, Cynodon dactylon, and Cyperus rotundus collected in Angola. Interesting differences were observed between the germination responses of the three species. No germination was observed for any species at 10 or 15–5 °C. Chloris barbata quickly germinated at most constant and alternate incubation temperatures, showing low primary dormancy and high germinability. Fast and high germination was observed for Cynodon dactylon at most alternate temperatures, while lower germination percentages were achieved at constant temperatures, especially the highest ones. Cyperus rotundus achieved good germination percentage at alternate temperatures, even if with slower and more extended germination dynamics than the other species, while almost no seeds germinated at constant temperatures. This study improves our knowledge of germination ecology for these species and allows some control tools to be identified, such as soil tillage, cover crops, and living or dead mulches, which can contribute to their ecologically sustainable management.

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