Mammal pollinators lured by the scent of a parasitic plant

To communicate with animals, plants use signals that are distinct from their surroundings. Animals generally learn to use these signals through associative conditioning; however, signals are most effective when they elicit innate behavioural responses. Many plant species have flowers specialized for...

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Published in	Proceedings of the Royal Society. B, Biological sciences Vol. 278; no. 1716; pp. 2303 - 2310
Main Authors	Johnson, Steven D., Burgoyne, Priscilla M., Harder, Lawrence D., Dötterl, Stefan
Format	Journal Article
Language	English
Published	England The Royal Society 07.08.2011
Subjects	Animals Biological Evolution Chromatography, Gas Cytinaceae Cytinus visseri Dioecy Floral Syndrome Flowers Flowers - chemistry Flowers - physiology Hexanones - analysis Inflorescences Magnoliopsida - chemistry Mammals Materials Nectar Odorants - analysis Plant reproduction Plants Pollen Pollinating insects Pollination Pollination - physiology Rodentia - physiology South Africa
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Abstract	To communicate with animals, plants use signals that are distinct from their surroundings. Animals generally learn to use these signals through associative conditioning; however, signals are most effective when they elicit innate behavioural responses. Many plant species have flowers specialized for pollination by ground-dwelling mammals, but the signals used to attract these pollinators have not been elucidated. Here, we demonstrate the chemical basis for attraction of mammal pollinators to flowers of the dioecious parasitic plant Cytinus visseri (Cytinaceae). Two aliphatic ketones dominate the scent of this species; 3-hexanone, which elicits strong innate attraction in rodents, and 1-hexen-3-one, which repels them in isolation, but not in combination with 3-hexanone. The aliphatic ketone-dominated scent of C. visseri contrasts with those of insect-pollinated plants, which are typically dominated by terpenoids, aromatic or non-ketone aliphatic compounds. 3-hexanone is also known from some bat-pollinated species, suggesting independent evolution of plant signals in derived, highly specialized mammal-pollination systems.
AbstractList	To communicate with animals, plants use signals that are distinct from their surroundings. Animals generally learn to use these signals through associative conditioning; however, signals are most effective when they elicit innate behavioural responses. Many plant species have flowers specialized for pollination by ground-dwelling mammals, but the signals used to attract these pollinators have not been elucidated. Here, we demonstrate the chemical basis for attraction of mammal pollinators to flowers of the dioecious parasitic plant Cytinus visseri (Cytinaceae). Two aliphatic ketones dominate the scent of this species; 3-hexanone, which elicits strong innate attraction in rodents, and 1-hexen-3-one, which repels them in isolation, but not in combination with 3-hexanone. The aliphatic ketone-dominated scent of C. visseri contrasts with those of insect-pollinated plants, which are typically dominated by terpenoids, aromatic or non-ketone aliphatic compounds. 3-hexanone is also known from some bat-pollinated species, suggesting independent evolution of plant signals in derived, highly specialized mammal-pollination systems. To communicate with animals, plants use signals that are distinct from their surroundings. Animals generally learn to use these signals through associative conditioning; however, signals are most effective when they elicit innate behavioural responses. Many plant species have flowers specialized for pollination by ground-dwelling mammals, but the signals used to attract these pollinators have not been elucidated. Here, we demonstrate the chemical basis for attraction of mammal pollinators to flowers of the dioecious parasitic plant Cytinus visseri (Cytinaceae). Two aliphatic ketones dominate the scent of this species; 3-hexanone, which elicits strong innate attraction in rodents, and 1-hexen-3-one, which repels them in isolation, but not in combination with 3-hexanone. The aliphatic ketone-dominated scent of C. visseri contrasts with those of insect-pollinated plants, which are typically dominated by terpenoids, aromatic or non-ketone aliphatic compounds. 3-hexanone is also known from some bat-pollinated species, suggesting independent evolution of plant signals in derived, highly specialized mammal-pollination systems. To communicate with animals, plants use signals that are distinct from their surroundings. Animals generally learn to use these signals through associative conditioning; however, signals are most effective when they elicit innate behavioural responses. Many plant species have flowers specialized for pollination by ground-dwelling mammals, but the signals used to attract these pollinators have not been elucidated.Here, we demonstrate the chemical basis for attraction of mammal pollinators to flowers of the dioecious parasitic plant Cytinus visseri (Cytinaceae). Two aliphatic ketones dominate the scent of this species; 3-hexanone, which elicits strong innate attraction in rodents, and l-hexen-3-one, which repels them in isolation, but not in combination with 3-hexanone. The aliphatic ketone-dominated scent of C visseri contrasts with those of insect-pollinated plants, which are typically dominated by terpenoids, aromatic or non-ketone aliphatic compounds. 3-hexanone is also known from some bat-pollinated species, suggesting independent evolution of plant signals in derived, highly specialized mammal-pollination systems.
Author	Burgoyne, Priscilla M. Harder, Lawrence D. Dötterl, Stefan Johnson, Steven D.
AuthorAffiliation	4 Department of Biological Sciences , University of Calgary , Calgary, Alberta , Canada , T2N 1N4 5 Department of Plant Systematics , University of Bayreuth , 95440 Bayreuth , Germany 1 School of Biological and Conservation Sciences , University of KwaZulu-Natal , Private Bag X01, Scottsville, Pietermaritzburg 3209 , South Africa 3 Department of Environmental Sciences, UNISA, Private Bag X6, Florida, 1710 Roodepoort , South Africa 2 South African National Biodiversity Institute, Private Bag X101, Pretoria 0001 , South Africa
AuthorAffiliation_xml	– name: 1 School of Biological and Conservation Sciences , University of KwaZulu-Natal , Private Bag X01, Scottsville, Pietermaritzburg 3209 , South Africa – name: 2 South African National Biodiversity Institute, Private Bag X101, Pretoria 0001 , South Africa – name: 3 Department of Environmental Sciences, UNISA, Private Bag X6, Florida, 1710 Roodepoort , South Africa – name: 4 Department of Biological Sciences , University of Calgary , Calgary, Alberta , Canada , T2N 1N4 – name: 5 Department of Plant Systematics , University of Bayreuth , 95440 Bayreuth , Germany
Author_xml	– sequence: 1 givenname: Steven D. surname: Johnson fullname: Johnson, Steven D. email: johnsonsd@ukzn.ac.za organization: School of Biological and Conservation Sciences, University of KwaZulu-Natal, Private Bag X01, Scottsville, Pietermaritzburg 3209, South Africa – sequence: 2 givenname: Priscilla M. surname: Burgoyne fullname: Burgoyne, Priscilla M. organization: South African National Biodiversity Institute, Private Bag X101, Pretoria 0001, South Africa – sequence: 3 givenname: Lawrence D. surname: Harder fullname: Harder, Lawrence D. organization: Department of Biological Sciences, University of Calgary, Calgary, Alberta, Canada, T2N 1N4 – sequence: 4 givenname: Stefan surname: Dötterl fullname: Dötterl, Stefan organization: Department of Plant Systematics, University of Bayreuth, 95440 Bayreuth, Germany
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SubjectTerms	Animals Biological Evolution Chromatography, Gas Cytinaceae Cytinus visseri Dioecy Floral Syndrome Flowers Flowers - chemistry Flowers - physiology Hexanones - analysis Inflorescences Magnoliopsida - chemistry Mammals Materials Nectar Odorants - analysis Plant reproduction Plants Pollen Pollinating insects Pollination Pollination - physiology Rodentia - physiology South Africa
Title	Mammal pollinators lured by the scent of a parasitic plant
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