Lluvia Flores-Renteria
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Explore the profile of Lluvia Flores-Renteria including associated specialties, affiliations and a list of published articles.
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25
Citations
214
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Recent Articles
1.
Ramadoss N, Steele S, Flores-Renteria L
Oecologia
. 2023 Nov;
203(3-4):383-394.
PMID: 37955714
Identifying plant sexual dimorphic traits is critical in advancing our knowledge on plant-pollinator interactions. For example, dimorphism in floral colors, or sexual dichromatism, is a crucial mediator of pollinator choice...
2.
Buck R, Ortega-Del Vecchyo D, Gehring C, Michelson R, Flores-Renteria D, Klein B, et al.
New Phytol
. 2022 Oct;
237(6):2435-2449.
PMID: 36251538
Multispecies interbreeding networks, or syngameons, have been increasingly reported in natural systems. However, the formation, structure, and maintenance of syngameons have received little attention. Through gene flow, syngameons can increase...
3.
Buck R, Flores-Renteria L
Plants (Basel)
. 2022 Apr;
11(7).
PMID: 35406874
Despite their evolutionary relevance, multispecies networks or syngameons are rarely reported in the literature. Discovering how syngameons form and how they are maintained can give insight into processes such as...
4.
Ramadoss N, Orduno-Baez A, Portillo C, Steele S, Rebman J, Flores-Renteria L
BMC Plant Biol
. 2022 Mar;
22(1):94.
PMID: 35236303
Background: In certain unisexual flowers, non-functional sexual organs remain vestigial and unisexuality can be overlooked leading to the ambiguous description of the sexual systems. Therefore, to accurately describe the sexual...
5.
Flores-Renteria L, Rymer P, Ramadoss N, Riegler M
Ecol Evol
. 2021 Nov;
11(21):14828-14842.
PMID: 34765144
We have investigated the impact of recognized biogeographic barriers on genetic differentiation of grey box (), a common and widespread tree species of the family Myrtaceae in eastern Australian woodlands,...
6.
Menon M, Bagley J, Page G, Whipple A, Schoettle A, Still C, et al.
Commun Biol
. 2021 Feb;
4(1):160.
PMID: 33547394
Extant conifer species may be susceptible to rapid environmental change owing to their long generation times, but could also be resilient due to high levels of standing genetic diversity. Hybridisation...
7.
Leal-Saenz A, Waring K, Menon M, Cushman S, Eckert A, Flores-Renteria L, et al.
Front Plant Sci
. 2020 Nov;
11:559697.
PMID: 33193485
The phenotype of trees is determined by the relationships and interactions among genetic and environmental influences. Understanding the patterns and processes that are responsible for phenotypic variation is facilitated by...
8.
Buck R, Hyasat S, Hossfeld A, Flores-Renteria L
Ann Bot
. 2020 Mar;
126(3):401-411.
PMID: 32222765
Background And Aims: Pinyon pine hybridization is widely acknowledged, but the frequency of and contributors to such interspecific mating remain largely unstudied. Pinus quadrifolia has three to four needles per...
9.
Menon M, Landguth E, Leal-Saenz A, Bagley J, Schoettle A, Wehenkel C, et al.
Evol Appl
. 2020 Jan;
13(1):195-209.
PMID: 31892952
A lack of optimal gene combinations, as well as low levels of genetic diversity, is often associated with the formation of species range margins. Conservation efforts rely on predictive modelling...
10.
Whipple A, Cobb N, Gehring C, Mopper S, Flores-Renteria L, Whitham T
Front Plant Sci
. 2019 Mar;
10:132.
PMID: 30833952
Worldwide, trees are confronting increased temperature and aridity, exacerbating susceptibility to herbivory. Long-term studies comparing patterns of plant performance through drought can help identify variation among and within populations in...