Increasing pollen production at high latitudes across animal‐pollinated flowering plants
Aim Plant reliance on animal mutualists is expected to decrease with latitude owing to increasing environmental instability. As a consequence, more erratic animal pollination in the temperate zones than in the tropics could translate into lower efficiency in pollen transfer, and thus increasing poll...
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| Published in | Global ecology and biogeography Vol. 31; no. 5; pp. 940 - 953 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Oxford
Wiley Subscription Services, Inc
01.05.2022
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| Online Access | Get full text |
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| Abstract | Aim
Plant reliance on animal mutualists is expected to decrease with latitude owing to increasing environmental instability. As a consequence, more erratic animal pollination in the temperate zones than in the tropics could translate into lower efficiency in pollen transfer, and thus increasing pollen wastage. Despite the relevance of this hypothesis for plant reproductive evolution, the implications of a proposed latitudinal gradient in pollinator reliability for pollen and ovule production, traits directly affecting seed siring and seed set, respectively, remain unresolved.
Location
Global.
Time period
1971–2020.
Major taxa studied
Angiospermae.
Methods
Based on a bibliographic survey and our own data, we collated a dataset with information on pollen production (P) and ovule number (O) per flower from 419 studies, including a total of 1,392 animal‐pollinated angiosperm species from 141 families distributed worldwide and sampled between the equator and 68.35° latitude. Using phylogenetic general linear mixed models, we investigated latitudinal variation in P and O. We also tested a latitudinal effect on several ancillary plant traits associated with a plant’s mating system and pollinator specialization that might confound any latitudinal effect on gamete production.
Results
P but not O was positively associated with latitude, a trend that even became stronger after including the latitudinally varying ancillary traits (i.e., growth form, flower size, flower symmetry and number of pollinator orders). The latitudinal effect on P was more pronounced among species producing large flowers, a trait that could be linked to self‐incompatibility and thus outcrossing. A weak phylogenetic patterning of P also indicates high evolvability potential of this trait, which may have an effect on both male and female plant fitness.
Main conclusions
Even though a latitudinal trend in pollinator reliability still awaits direct testing, the observed latitudinal increase in P across angiosperms can be interpreted as an evolutionary consequence of an increasingly unpredictable pollination environment. |
|---|---|
| AbstractList | Aim
Plant reliance on animal mutualists is expected to decrease with latitude owing to increasing environmental instability. As a consequence, more erratic animal pollination in the temperate zones than in the tropics could translate into lower efficiency in pollen transfer, and thus increasing pollen wastage. Despite the relevance of this hypothesis for plant reproductive evolution, the implications of a proposed latitudinal gradient in pollinator reliability for pollen and ovule production, traits directly affecting seed siring and seed set, respectively, remain unresolved.
Location
Global.
Time period
1971–2020.
Major taxa studied
Angiospermae.
Methods
Based on a bibliographic survey and our own data, we collated a dataset with information on pollen production (P) and ovule number (O) per flower from 419 studies, including a total of 1,392 animal‐pollinated angiosperm species from 141 families distributed worldwide and sampled between the equator and 68.35° latitude. Using phylogenetic general linear mixed models, we investigated latitudinal variation in P and O. We also tested a latitudinal effect on several ancillary plant traits associated with a plant’s mating system and pollinator specialization that might confound any latitudinal effect on gamete production.
Results
P but not O was positively associated with latitude, a trend that even became stronger after including the latitudinally varying ancillary traits (i.e., growth form, flower size, flower symmetry and number of pollinator orders). The latitudinal effect on P was more pronounced among species producing large flowers, a trait that could be linked to self‐incompatibility and thus outcrossing. A weak phylogenetic patterning of P also indicates high evolvability potential of this trait, which may have an effect on both male and female plant fitness.
Main conclusions
Even though a latitudinal trend in pollinator reliability still awaits direct testing, the observed latitudinal increase in P across angiosperms can be interpreted as an evolutionary consequence of an increasingly unpredictable pollination environment. AIM: Plant reliance on animal mutualists is expected to decrease with latitude owing to increasing environmental instability. As a consequence, more erratic animal pollination in the temperate zones than in the tropics could translate into lower efficiency in pollen transfer, and thus increasing pollen wastage. Despite the relevance of this hypothesis for plant reproductive evolution, the implications of a proposed latitudinal gradient in pollinator reliability for pollen and ovule production, traits directly affecting seed siring and seed set, respectively, remain unresolved. LOCATION: Global. TIME PERIOD: 1971–2020. MAJOR TAXA STUDIED: Angiospermae. METHODS: Based on a bibliographic survey and our own data, we collated a dataset with information on pollen production (P) and ovule number (O) per flower from 419 studies, including a total of 1,392 animal‐pollinated angiosperm species from 141 families distributed worldwide and sampled between the equator and 68.35° latitude. Using phylogenetic general linear mixed models, we investigated latitudinal variation in P and O. We also tested a latitudinal effect on several ancillary plant traits associated with a plant’s mating system and pollinator specialization that might confound any latitudinal effect on gamete production. RESULTS: P but not O was positively associated with latitude, a trend that even became stronger after including the latitudinally varying ancillary traits (i.e., growth form, flower size, flower symmetry and number of pollinator orders). The latitudinal effect on P was more pronounced among species producing large flowers, a trait that could be linked to self‐incompatibility and thus outcrossing. A weak phylogenetic patterning of P also indicates high evolvability potential of this trait, which may have an effect on both male and female plant fitness. MAIN CONCLUSIONS: Even though a latitudinal trend in pollinator reliability still awaits direct testing, the observed latitudinal increase in P across angiosperms can be interpreted as an evolutionary consequence of an increasingly unpredictable pollination environment. AimPlant reliance on animal mutualists is expected to decrease with latitude owing to increasing environmental instability. As a consequence, more erratic animal pollination in the temperate zones than in the tropics could translate into lower efficiency in pollen transfer, and thus increasing pollen wastage. Despite the relevance of this hypothesis for plant reproductive evolution, the implications of a proposed latitudinal gradient in pollinator reliability for pollen and ovule production, traits directly affecting seed siring and seed set, respectively, remain unresolved.LocationGlobal.Time period1971–2020.Major taxa studiedAngiospermae.MethodsBased on a bibliographic survey and our own data, we collated a dataset with information on pollen production (P) and ovule number (O) per flower from 419 studies, including a total of 1,392 animal‐pollinated angiosperm species from 141 families distributed worldwide and sampled between the equator and 68.35° latitude. Using phylogenetic general linear mixed models, we investigated latitudinal variation in P and O. We also tested a latitudinal effect on several ancillary plant traits associated with a plant’s mating system and pollinator specialization that might confound any latitudinal effect on gamete production.ResultsP but not O was positively associated with latitude, a trend that even became stronger after including the latitudinally varying ancillary traits (i.e., growth form, flower size, flower symmetry and number of pollinator orders). The latitudinal effect on P was more pronounced among species producing large flowers, a trait that could be linked to self‐incompatibility and thus outcrossing. A weak phylogenetic patterning of P also indicates high evolvability potential of this trait, which may have an effect on both male and female plant fitness.Main conclusionsEven though a latitudinal trend in pollinator reliability still awaits direct testing, the observed latitudinal increase in P across angiosperms can be interpreted as an evolutionary consequence of an increasingly unpredictable pollination environment. |
| Author | Chalcoff, Vanina Ruth Cunha, Nicolay Leme da Mayfield, Margaret Aizen, Marcelo Adrián Sáez, Agustín Tur, Cristina Gleiser, Gabriela |
| Author_xml | – sequence: 1 givenname: Nicolay Leme da orcidid: 0000-0001-5509-6757 surname: Cunha fullname: Cunha, Nicolay Leme da email: nicolaycunha@gmail.com organization: CONICET‐Universidad Nacional del Comahue – sequence: 2 givenname: Gabriela orcidid: 0000-0002-4178-6703 surname: Gleiser fullname: Gleiser, Gabriela organization: CONICET‐Universidad Nacional del Comahue – sequence: 3 givenname: Agustín orcidid: 0000-0002-6461-2888 surname: Sáez fullname: Sáez, Agustín organization: CONICET‐Universidad Nacional del Comahue – sequence: 4 givenname: Vanina Ruth orcidid: 0000-0001-5777-8137 surname: Chalcoff fullname: Chalcoff, Vanina Ruth organization: CONICET‐Universidad Nacional del Comahue – sequence: 5 givenname: Cristina orcidid: 0000-0001-8059-7537 surname: Tur fullname: Tur, Cristina organization: CONICET‐Universidad Nacional del Comahue – sequence: 6 givenname: Marcelo Adrián orcidid: 0000-0001-9079-9749 surname: Aizen fullname: Aizen, Marcelo Adrián organization: Wissenschaftskolleg zu Berlin – sequence: 7 givenname: Margaret surname: Mayfield fullname: Mayfield, Margaret |
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Plant reliance on animal mutualists is expected to decrease with latitude owing to increasing environmental instability. As a consequence, more erratic... AimPlant reliance on animal mutualists is expected to decrease with latitude owing to increasing environmental instability. As a consequence, more erratic... AIM: Plant reliance on animal mutualists is expected to decrease with latitude owing to increasing environmental instability. As a consequence, more erratic... |
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| SubjectTerms | Angiospermae Angiosperms animal pollination animals biogeography data collection Equator female plants flower size Flowering Flowering plants Flowers gametogenesis Incompatibility Latitude latitudinal trait variation macroecological patterns males outcrossing ovule number ovules Phylogenetics Phylogeny Plant reliability Plant reproduction Plants (botany) Pollen pollen production pollen productivity pollen receipt pollen transfer efficiency Pollination Pollinators Seed set surveys Temperate zones Tropical environments |
| Title | Increasing pollen production at high latitudes across animal‐pollinated flowering plants |
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