SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4309081618> ?p ?o ?g. }

Showing items 1 to 100 of ±121 with 100 items per page.

W4309081618 endingPage "105102" @default.
W4309081618 startingPage "105102" @default.
W4309081618 abstract "• We examine fitness and host use of hybrid biological control agents from the field. • Phenotypes paired with genomics can assess the risk of non-target attack by hybrids. • Fitness and host use are stable in hybrid and non-hybrid Diorhabda biocontrol agents. • Variation associated with non-target host use may be higher in hybrids. Releasing several biotypes or species of biological control agent is common in many biological control programs. However, the consequences of hybridization for fitness and host use of the resulting hybrids are difficult to predict, especially for hybrids between more than two species and with varying levels of introgression. Hybridization of biocontrol agents may increase or decrease fitness, with consequences for control efficacy. Additionally, hybridization may lead to changes in host use patterns that may put non-target host species at increased risk. We collected genomic data to determine ancestry of individuals from ten collection sites across a hybrid zone of Diorhabda spp., the biological control agent of Tamarix spp. in North America. We paired genomic data with phenotypic data on fitness proxies of body size and early fecundity measured in a common garden, and host use for individuals from three of those sites. We found two originally released pure species and a wide range of introgression in hybrids between three Diorhabda species. Body size and early fecundity were similar in pure species and hybrids, indicating hybridization is not detrimental to insect fitness or the biocontrol program and may provide variation that allows populations to become locally adapted. Host use of hybrids was very similar to that of pure species, although some hybrid individuals had increased preference for Frankenia salina , a native non-target species. We find that hybridization has likely not been detrimental to the efficacy and safety of the Diorhabda biocontrol program, but possible impacts on F. salina should be monitored, considering ongoing hybridization and evolution in the field." @default.
W4309081618 created "2022-11-21" @default.
W4309081618 creator A5009928493 @default.
W4309081618 creator A5021314856 @default.
W4309081618 creator A5047244631 @default.
W4309081618 creator A5057836793 @default.
W4309081618 creator A5079923400 @default.
W4309081618 creator A5081275767 @default.
W4309081618 creator A5088169966 @default.
W4309081618 date "2023-02-01" @default.
W4309081618 modified "2023-09-25" @default.
W4309081618 title "Fitness and host use remain stable in a biological control agent after many years of hybridization" @default.
W4309081618 cites W1551758422 @default.
W4309081618 cites W1723015704 @default.
W4309081618 cites W1748833050 @default.
W4309081618 cites W1931973909 @default.
W4309081618 cites W1969297179 @default.
W4309081618 cites W1974372503 @default.
W4309081618 cites W1987346441 @default.
W4309081618 cites W2004576833 @default.
W4309081618 cites W2005894934 @default.
W4309081618 cites W2014072463 @default.
W4309081618 cites W2018026111 @default.
W4309081618 cites W2021111792 @default.
W4309081618 cites W2022331305 @default.
W4309081618 cites W2030754400 @default.
W4309081618 cites W2034095173 @default.
W4309081618 cites W2042403586 @default.
W4309081618 cites W2060318941 @default.
W4309081618 cites W2068401675 @default.
W4309081618 cites W2070297773 @default.
W4309081618 cites W2091493289 @default.
W4309081618 cites W2094561714 @default.
W4309081618 cites W2098126593 @default.
W4309081618 cites W2099199535 @default.
W4309081618 cites W2104520592 @default.
W4309081618 cites W2107458073 @default.
W4309081618 cites W2107752890 @default.
W4309081618 cites W2108234281 @default.
W4309081618 cites W2109787722 @default.
W4309081618 cites W2124020140 @default.
W4309081618 cites W2135725577 @default.
W4309081618 cites W2136912386 @default.
W4309081618 cites W2138693244 @default.
W4309081618 cites W2144478417 @default.
W4309081618 cites W2146290595 @default.
W4309081618 cites W2158489424 @default.
W4309081618 cites W2158880823 @default.
W4309081618 cites W2161863335 @default.
W4309081618 cites W2162293860 @default.
W4309081618 cites W2164219679 @default.
W4309081618 cites W2170551349 @default.
W4309081618 cites W2171464003 @default.
W4309081618 cites W2177569589 @default.
W4309081618 cites W2230859063 @default.
W4309081618 cites W2263977295 @default.
W4309081618 cites W2269498282 @default.
W4309081618 cites W2280888062 @default.
W4309081618 cites W2513355922 @default.
W4309081618 cites W2605854103 @default.
W4309081618 cites W2731666563 @default.
W4309081618 cites W2745714020 @default.
W4309081618 cites W2786358356 @default.
W4309081618 cites W2898201736 @default.
W4309081618 cites W2916203284 @default.
W4309081618 cites W2949029836 @default.
W4309081618 cites W2950177162 @default.
W4309081618 cites W2952033584 @default.
W4309081618 cites W2964695000 @default.
W4309081618 cites W2976876706 @default.
W4309081618 cites W2979597398 @default.
W4309081618 cites W3007441307 @default.
W4309081618 cites W3008277487 @default.
W4309081618 cites W3046421258 @default.
W4309081618 cites W3094540126 @default.
W4309081618 cites W3122742974 @default.
W4309081618 cites W3137742752 @default.
W4309081618 cites W3212013175 @default.
W4309081618 cites W4308021979 @default.
W4309081618 doi "https://doi.org/10.1016/j.biocontrol.2022.105102" @default.
W4309081618 hasPublicationYear "2023" @default.
W4309081618 type Work @default.
W4309081618 citedByCount "0" @default.
W4309081618 crossrefType "journal-article" @default.
W4309081618 hasAuthorship W4309081618A5009928493 @default.
W4309081618 hasAuthorship W4309081618A5021314856 @default.
W4309081618 hasAuthorship W4309081618A5047244631 @default.
W4309081618 hasAuthorship W4309081618A5057836793 @default.
W4309081618 hasAuthorship W4309081618A5079923400 @default.
W4309081618 hasAuthorship W4309081618A5081275767 @default.
W4309081618 hasAuthorship W4309081618A5088169966 @default.
W4309081618 hasBestOaLocation W43090816181 @default.
W4309081618 hasConcept C104727253 @default.
W4309081618 hasConcept C126831891 @default.
W4309081618 hasConcept C18903297 @default.
W4309081618 hasConcept C78458016 @default.
W4309081618 hasConcept C86803240 @default.
W4309081618 hasConceptScore W4309081618C104727253 @default.