TY - BOOK ID - 145198921 TI - Herbicide Resistance in Plants PY - 2020 PB - Basel, Switzerland MDPI - Multidisciplinary Digital Publishing Institute DB - UniCat KW - Research & information: general KW - Biology, life sciences KW - best management practices KW - crop competition KW - herbicide resistance KW - integrated weed management KW - precision weed management KW - site-specific weed management KW - Citrus latifolia KW - hairy beggarticks KW - junglerice KW - tropical sprangletop KW - corn KW - herbicide resistance trait KW - maize KW - soybean KW - amino acid biosynthesis KW - lipid biosynthesis KW - mechanism of action KW - plastoquinone biosynthesis KW - pyrimidine biosynthesis KW - target site KW - weeds KW - genomics KW - plant genome assembly KW - non-target site resistance KW - population genomics KW - genome scans KW - population genetics KW - non-target metabolomics KW - GC-MS KW - priming KW - hormesis KW - D1 protein KW - acetolactate synthase KW - tubulin KW - ACCase KW - EPSPS KW - phytoene desaturase KW - PPO KW - glutamine synthetase KW - auxin KW - Non-target-site resistance KW - herbicide mode of action KW - co-existence KW - environmental conditions KW - resistance mutation KW - fitness benefit KW - fitness cost KW - resistance management KW - weed genomics KW - herbicide resistance database KW - herbicide resistance diagnostics KW - precision herbicide resistance management KW - functional genomics KW - weed biology KW - weed evolution KW - integrated pest management KW - sensitivity line KW - ryegrass KW - herbicide dose KW - dose-response KW - non-target-site resistance KW - best management practices KW - crop competition KW - herbicide resistance KW - integrated weed management KW - precision weed management KW - site-specific weed management KW - Citrus latifolia KW - hairy beggarticks KW - junglerice KW - tropical sprangletop KW - corn KW - herbicide resistance trait KW - maize KW - soybean KW - amino acid biosynthesis KW - lipid biosynthesis KW - mechanism of action KW - plastoquinone biosynthesis KW - pyrimidine biosynthesis KW - target site KW - weeds KW - genomics KW - plant genome assembly KW - non-target site resistance KW - population genomics KW - genome scans KW - population genetics KW - non-target metabolomics KW - GC-MS KW - priming KW - hormesis KW - D1 protein KW - acetolactate synthase KW - tubulin KW - ACCase KW - EPSPS KW - phytoene desaturase KW - PPO KW - glutamine synthetase KW - auxin KW - Non-target-site resistance KW - herbicide mode of action KW - co-existence KW - environmental conditions KW - resistance mutation KW - fitness benefit KW - fitness cost KW - resistance management KW - weed genomics KW - herbicide resistance database KW - herbicide resistance diagnostics KW - precision herbicide resistance management KW - functional genomics KW - weed biology KW - weed evolution KW - integrated pest management KW - sensitivity line KW - ryegrass KW - herbicide dose KW - dose-response KW - non-target-site resistance UR - https://www.unicat.be/uniCat?func=search&query=sysid:145198921 AB - Today, herbicide-resistant weeds dominate research and development efforts in the discipline of weed science. The incidence, management challenges, and cost of multiple herbicide-resistant weed populations are continually increasing worldwide. Crop varieties with multiple herbicide-resistance traits are being rapidly adopted by growers and land managers to keep ahead of the weed resistance tsunami. This Special Issue of Plants comprises papers that describe the current status and future outlook of herbicide resistance research and development in weedy and domestic plants, with topics covering the full spectrum from resistance mechanisms to resistance management. The unifying framework for this Special issue is the challenge posed to all of the contributing authors: What are the (potential) implications for herbicide resistance management? ER -