Transfer of resistance alleles from herbicide-resistant to susceptible grass weeds via pollen-mediated gene flow

Jhala Amit J.; Beckie Hugh J.; Mallory-Smith CarolJasieniuk MarieBusi RobertoNorsworthy Jason K.Bagavathiannan Muthukumar V.Tidemann Breanne D.Geddes Charles M.

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Transfer of resistance alleles from herbicide-resistant to susceptible grass weeds via pollen-mediated gene flow

机译：Transfer of resistance alleles from herbicide-resistant to susceptible grass weeds via pollen-mediated gene flow

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Abstract The objective of this paper was to review the reproductive biology, herbicide-resistant (HR) biotypes, pollen-mediated gene flow (PMGF), and potential for transfer of alleles from HR to herbicide-susceptible grass weeds including barnyardgrass, creeping bentgrass, Italian ryegrass, johnsongrass, rigid (annual) ryegrass, and wild oats. The widespread occurrence of HR grass weeds is at least partly due to PMGF, particularly in obligate outcrossing species such as rigid ryegrass. Creeping bentgrass, a wind-pollinated turfgrass species, can efficiently disseminate herbicide resistance alleles via PMGF and movement of seeds and stolons. The genus Agrostis contains about 200 species, many of which are sexually compatible and produce naturally occurring hybrids and hybrids with species in the genus Polypogon. The self-incompatibility, extremely high outcrossing rate, and wind pollination in Italian ryegrass clearly point to PMGF as a major mechanism by which herbicide resistance alleles can spread across agricultural landscapes, resulting in abundant genetic variation within populations and low genetic differentiation among populations. Italian ryegrass can readily hybridize with perennial ryegrass and rigid ryegrass due to their similarity in chromosome numbers (2n = 14), resulting in interspecific gene exchange. Johnsongrass, barnyardgrass, and wild oats are self-pollinated species, so the potential for PMGF is relatively low and limited to short distances; however, seeds can easily shatter upon maturity before crop harvest, leading to wider dispersal. The occurrence of PMGF in reviewed grass weed species, even at a low rate, is greater than that of spontaneous mutations conferring herbicide resistance in weeds and thus can contribute to the spread of herbicide resistance alleles. This review indicates that the transfer of herbicide resistance alleles occurs under field conditions at varying levels depending on the grass weed species.

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《Weed Technology: A journal of the Weed Science Society of America》 |2021年第6期|869-885|共17页
作者
Jhala Amit J.; Beckie Hugh J.; Mallory-Smith CarolJasieniuk MarieBusi RobertoNorsworthy Jason K.Bagavathiannan Muthukumar V.Tidemann Breanne D.Geddes Charles M.;
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作者单位

Texas A & M University;

Lacombe Research and Development Centre;

Lethbridge Research and Development CentreUniversity of California−DavisUniversity of Western AustraliaUniversity of Nebraska-LincolnOregon State UniversityUniversity of Arkansas;

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正文语种英语
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Barnyardgrass; Echinochloa crus-galli (L.) Beauv.; creeping bentgrass; Agrostis stolonifera L.; Italian ryegrass; Lolium perenne ssp. multiflorum (Lam.) Husnot; johnsongrass; Sorghum halepense (L.) Pers.; perennial ryegrass; Lolium perenne L.; rigid (annual) ryegrass; Lolium rigidum Geud.; sterile oat; Avena sterilis L.; wild oat; Avena fatua L.; Gene transfer; hybridization; inflorescences; pollen viability; reproductive biology; wind-pollinated;

Transfer of resistance alleles from herbicide-resistant to susceptible grass weeds via pollen-mediated gene flow

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