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W3017578051 abstract "Abstract Research and development activities on non‐chemical weed control methods to date have mainly focused on mechanical and thermal applications. Selectivity in mechanical weed control is obtained using dynamically actuated harrows. Selectivity in thermal weed control is obtained through a certain heat tolerance of the crop. In conservation agriculture (CA), weed emergence is partially suppressed by constant soil cover with crops or cover crops. Large amounts of plant residues therefore remain on the soil, which make mechanical methods inefficient or difficult to implement. And thermal methods need to prevent not only crop damage but also fire from situationally dry plant residues. In this review, technologies that can potentially be used for in‐crop weed control in CA are discussed. The technologies reviewed include spot‐flaming, electric resistance heating, electromagnetic irradiation and steam/hot water application. Their evaluation focuses on efficiency and specificity (spatial precision). This review indicates that existing equipment does not fulfil the spatial precision required in CA and that further research and development is required on this topic. In particular, the authors suggest further research on the use of laser diodes, micro‐flames and capacitive coupling of electric fields. It seems that the use of automated imaging systems for weed/crop differentiation is a prerequisite in CA to enable automatisation of weed control." @default.
W3017578051 created "2020-05-01" @default.
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W3017578051 date "2020-04-24" @default.
W3017578051 modified "2023-10-01" @default.
W3017578051 title "Thermal weed control technologies for conservation agriculture—a review" @default.
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W3017578051 doi "https://doi.org/10.1111/wre.12418" @default.
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