TY - JOUR
T1 - Review
T2 - evolutionary drivers of agricultural adaptation in Lolium spp.
AU - Matzrafi, Maor
AU - Preston, Christopher
AU - Brunharo, Caio Augusto
N1 - Funding Information:
The authors would like to thank Prof. Jonathan Gressel for the opportunity to write this review and for his valuable comments and suggestions. The authors would also like to thank Dr Carol Mallory-Smith for providing feedback and valuable discussion on an early version of this manuscript. CAB was partially supported by grants from the Oregon Department of Agriculture, Oregon Seed Council, Oregon Mint Commission, Oregon Wheat Commission, and OSU Agricultural Research Foundation. Figures were created with Biorender (Biorender.com).
Funding Information:
The authors would like to thank Prof. Jonathan Gressel for the opportunity to write this review and for his valuable comments and suggestions. The authors would also like to thank Dr Carol Mallory‐Smith for providing feedback and valuable discussion on an early version of this manuscript. CAB was partially supported by grants from the Oregon Department of Agriculture, Oregon Seed Council, Oregon Mint Commission, Oregon Wheat Commission, and OSU Agricultural Research Foundation. Figures were created with Biorender ( Biorender.com ).
Publisher Copyright:
© 2020 The Authors. Pest Management Science published by John Wiley & Sons Ltd on behalf of Society of Chemical Industry.
PY - 2021/5
Y1 - 2021/5
N2 - The genus Lolium comprises many species, of which L. perenne ssp. multiflorum, L. perenne ssp. perenne, and L. rigidum are of worldwide agricultural importance as both pasture crops and as weeds. These three species are inter-fertile, obligate out-crossers with a self-incompatible reproduction system. This combination contributes to high genetic diversity that supplies new variants during expansion to new natural areas and agricultural environments. Human dispersal, de-domestication and crop-weed hybridization events between Lolium spp., or with others such as Festuca spp., are likely associated with their distinct weediness abilities. Furthermore, new introductions followed by introgression may hasten adaptation to new environments. Most Lolium-related weed science studies have focused on adaptation leading to herbicide resistance, but other forms of adaptation may also occur. In this review, we explore how the wide genetic variation among Lolium species and hybridization with other species may contribute to range expansion, and adaptation to both new agricultural practices and future predicted climate change scenarios.
AB - The genus Lolium comprises many species, of which L. perenne ssp. multiflorum, L. perenne ssp. perenne, and L. rigidum are of worldwide agricultural importance as both pasture crops and as weeds. These three species are inter-fertile, obligate out-crossers with a self-incompatible reproduction system. This combination contributes to high genetic diversity that supplies new variants during expansion to new natural areas and agricultural environments. Human dispersal, de-domestication and crop-weed hybridization events between Lolium spp., or with others such as Festuca spp., are likely associated with their distinct weediness abilities. Furthermore, new introductions followed by introgression may hasten adaptation to new environments. Most Lolium-related weed science studies have focused on adaptation leading to herbicide resistance, but other forms of adaptation may also occur. In this review, we explore how the wide genetic variation among Lolium species and hybridization with other species may contribute to range expansion, and adaptation to both new agricultural practices and future predicted climate change scenarios.
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U2 - 10.1002/ps.6219
DO - 10.1002/ps.6219
M3 - Review article
C2 - 33300265
AN - SCOPUS:85097976658
SN - 1526-498X
VL - 77
SP - 2209
EP - 2218
JO - Pest Management Science
JF - Pest Management Science
IS - 5
ER -