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Journal Abstract Search

225 related items for PubMed ID: 23104672

  • 1.
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  • 2. Large-scale patterns of diversification in the widespread legume genus Senna and the evolutionary role of extrafloral nectaries.
    Marazzi B, Sanderson MJ.
    Evolution; 2010 Dec; 64(12):3570-92. PubMed ID: 21133898
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  • 3. Structural analysis of extrafloral nectaries of Senna occidentalis L.: insights on diversity and evolution.
    Afzal S, Singh NK, Singh N, Chaudhary N.
    Planta; 2021 Nov 22; 254(6):125. PubMed ID: 34807329
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  • 5. Extrafloral nectary-bearing plant Mallotus japonicus uses different types of extrafloral nectaries to establish effective defense by ants.
    Yamawo A, Suzuki N, Tagawa J.
    J Plant Res; 2019 Jul 22; 132(4):499-507. PubMed ID: 31228016
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  • 6. Evolution of extrafloral nectaries: adaptive process and selective regime changes from forest to savanna.
    Nogueira A, Rey PJ, Lohmann LG.
    J Evol Biol; 2012 Nov 22; 25(11):2325-40. PubMed ID: 23013544
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  • 7. Plant species with larger extrafloral nectaries produce better quality nectar when needed and interact with the best ant partners.
    Alencar CLDS, Nogueira A, Vicente RE, Coutinho ÍAC.
    J Exp Bot; 2023 Aug 17; 74(15):4613-4627. PubMed ID: 37115640
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  • 8. Temporal Variation in the Abundance and Richness of Foliage-Dwelling Ants Mediated by Extrafloral Nectar.
    Belchior C, Sendoya SF, Del-Claro K.
    PLoS One; 2016 Aug 17; 11(7):e0158283. PubMed ID: 27438722
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  • 9. Dynamic extrafloral nectar production: the timing of leaf damage affects the defensive response in Senna mexicana var. chapmanii (Fabaceae).
    Jones IM, Koptur S.
    Am J Bot; 2015 Jan 17; 102(1):58-66. PubMed ID: 25587148
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  • 11. The phylogenetic distribution of extrafloral nectaries in plants.
    Weber MG, Keeler KH.
    Ann Bot; 2013 Jun 17; 111(6):1251-61. PubMed ID: 23087129
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  • 14. Ants at Plant Wounds: A Little-Known Trophic Interaction with Evolutionary Implications for Ant-Plant Interactions.
    Staab M, Fornoff F, Klein AM, Blüthgen N.
    Am Nat; 2017 Sep 17; 190(3):442-450. PubMed ID: 28829637
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  • 15. Decreasing water availability across the globe improves the effectiveness of protective ant-plant mutualisms: a meta-analysis.
    Leal LC, Peixoto PEC.
    Biol Rev Camb Philos Soc; 2017 Aug 17; 92(3):1785-1794. PubMed ID: 27791332
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  • 16. Extrafloral nectar fuels ant life in deserts.
    Aranda-Rickert A, Diez P, Marazzi B.
    AoB Plants; 2014 Nov 07; 6():. PubMed ID: 25381258
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  • 17. Non-additive benefit or cost? Disentangling the indirect effects that occur when plants bearing extrafloral nectaries and honeydew-producing insects share exotic ant mutualists.
    Savage AM, Rudgers JA.
    Ann Bot; 2013 Jun 07; 111(6):1295-307. PubMed ID: 23609021
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  • 18. Variation in Extrafloral Nectary Productivity Influences the Ant Foraging.
    Lange D, Calixto ES, Del-Claro K.
    PLoS One; 2017 Jun 07; 12(1):e0169492. PubMed ID: 28046069
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  • 19. Dear neighbor: Trees with extrafloral nectaries facilitate defense and growth of adjacent undefended trees.
    Staab M, Pietsch S, Yan H, Blüthgen N, Cheng A, Li Y, Zhang N, Ma K, Liu X.
    Ecology; 2023 Jul 07; 104(7):e4057. PubMed ID: 37078562
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  • 20. Time course of inducibility of indirect responses in an ant-defended plant.
    Calixto ES, Del-Claro K, Lange D, Bronstein J.
    Ecology; 2023 May 07; 104(5):e4029. PubMed ID: 36912135
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