Artículos de revistas
Functional Groups In Lychnophorinae (asteraceae: Vernonieae) Based On Morphological And Anatomical Traits
Registro en:
Australian Journal Of Botany. Csiro, v. 62, n. 2, p. 150 - 163, 2014.
671924
10.1071/BT13301
2-s2.0-84901361494
Autor
Lusa M.G.
Appezzato-Da-Gloria B.
Loeuille B.
Bartoli G.
Ciccarelli D.
Institución
Resumen
The Lychnophorinae subtribe (Asteraceae: Vernonieae) occurs mainly on the Central Brazilian Plateau, especially in areas characterised by intense solar radiation, large daily temperature fluctuations, water scarcity during autumn and winter, and frequent fire. However, a few species of Lychnophorinae, such as Blanchetia heterotricha DC., are not restricted to the Cerrado Domain, but can live in open and humid areas of borders of the Atlantic Forest. To understand the mechanisms of Lychnophorinae adaptation to these environmental conditions, habit, leaf and stem functional traits from 12 species were analysed. Leaf and stem samples were processed and stained using standard plant-anatomy methodology. A comparative analysis of functional groups was performed by principal coordinates analysis, which was applied to two matrices of 30 qualitative and five quantitative traits. The multivariate analysis based on qualitative traits highlighted the following four functional types that might be linked to ecological conditions: Group I adapted at open and humid areas of borders of the Atlantic Forest; Group II, with features mostly related to foggy habitats; Group III, exhibiting traits quite adapted to the seasonally dry and variable conditions of the campos rupestres; and Group IV, showing the most specialised morphological and anatomical traits, which might be related to the extreme conditions of the campos rupestres. 62 2 150 163 Appezzato-Da-Glória, B., Cury, G., Morpho-anatomical features of underground systems in six Asteraceae species from the Brazilian Cerrado (2011) Anais da Academia Brasileira de Ciencias, 83, pp. 981-991. , doi:10. 1590/S0001-37652011005000018 Bartoli, G., Bottega, S., Forino, L.M.C., Ruffini Castiglione, M., Tagliasacchi, A.M., Grilli, I., Spanò, C., Morpho-physiological plasticity contributes to tolerance of Calluna vulgaris in an active geothermal field (2013) Australian Journal of Botany, 61, pp. 107-118. , doi:10. 1071/BT12174 Bartoli, G., Bottega, S., Forino, L.M.C., Ciccarelli, D., Spanò, C., Plant adaptation to extreme environments: The example of Cistus salviifolius of an active geothermal alteration field (2014) Comptes Rendus Biologies, 337, pp. 101-110. , doi:10. 1016/j. crvi. 2013. 12. 005 Baruch, Z., Elevational differentiation in Espeletia schultzii (Compositae), a giant rosette plant of the Venezuelan Paramos (1979) Ecology, 60, pp. 85-98. , doi:10. 2307/1936471 Baruch, Z., Smith, A.P., Morphological and physiological correlates of niche breadth in two species of Espeletia (Compositae) in the Venezuelan Andes (1979) Oecologia, 38, pp. 71-82. , doi:10. 1007/BF00347825 Batalha, M.A., O cerrado não é um bioma (2011) Biota Neotropica, 11, pp. 21-24. , doi:10. 1590/S1676-06032011000100001 Bieras, A.C., Sajo, M.G., Leaf structure of the cerrado (Brazilian savanna) woody plants (2009) Trees, 23, pp. 451-471. , doi:10. 1007/s00468-008-0295-7 Bosabalidis, A.M., Kofidis, G., Comparative effects of drought stress on leaf anatomy of two olive cultivars (2002) Plant Science, 163 (2), pp. 375-379. , DOI 10.1016/S0168-9452(02)00135-8, PII S0168945202001358 Chamberlain, C.J., (1932) Methods in Plant Histology, , University of Chicago Press: Chicago, IL Charrière-Ladreix, Y., Repartition intracellulaire du sécrétat flavonique de Populus nigra L (1976) Planta, 129, pp. 167-174. , doi:10. 1007/BF00390024 Chueiri-Chiaretto, I.A., Estudos morfo-anatômicos da folha de espécies de Trimesia (Iridaceae (1984) Hoehnea, 11, pp. 47-58 Clarke, P., Lawes, M., Midgley, J., Lamont, B., Ojeda, F., Burrows, G., Enright, N., Knoxk, Resprouting as a key functional trait: How buds, protection and resources drive persistence after fire (2013) New Phytologist, 197, pp. 19-35. , doi:10. 1111/nph. 12001 Cornelissen, J.H.C., Lavorel, S., Garnier, E., Diaz, S., Buchmann, N., Gurvich, D.E., Reich, P.B., Poorter, H., A handbook of protocols for standardised and easy measurement of plant functional traits worldwide (2003) Australian Journal of Botany, 51 (4), pp. 335-380. , DOI 10.1071/BT02124 Cox, G., Hawes, C.R., Van Der Lubbe, L., Juniper, B.E., High-voltage electron microscopy of whole, critical-point dried plant cells cytoskeletal structures and plastid motility in selaginella (1987) Protoplasma, 140, pp. 173-186. , doi:10.1007/BF01273727 Vegetation structure: Fine scale relationships with soil in a cerrado site (2011) Flora, 206, pp. 341-346. , Dantas VL, Batalha MA doi:10. 1016/j. flora. 2010. 11. 003 David, R., Carde, J.P., Coloration différentielle des inclusions lipidiques et terpéniques des pseudophylles du Pin maritime au moyen du réactif Nadi (1964) Comptes Rendus de l'Academie des Sciences de Paris Série D, 258, pp. 1338-1340 De Cáceres, M., Font, X., García, R., Oliva, F., (2003) 'Vegana, un Paquete de Programas Para la Gestión y Análisis de Datos Ecológicos ' (VII Congreso Nacional de la Associación Española de Ecología Terrestre: Bellaterra, , http://biodiver.bio.ub.es/vegana/papers/AEET2003def.pdf, España Verified 2 May 2013 Diaz, S., Cabido, M., Plant functional types and ecosystem function in relation to global change (1997) Journal of Vegetation Science, 8 (4), pp. 463-474 Diaz, S., Hodgson, J.G., Thompson, K., Cabido, M., Cornelissen, J.H.C., Jalili, A., Montserrat-Marti, G., Zak, M.R., The plant traits that drive ecosystems: Evidence from three continents (2004) Journal of Vegetation Science, 15 (3), pp. 295-304 Echternacht, L., Trovó, M., Oliveira, C.T., Pirani, J.R., Areas of endemism in the Espinha̧co Range in Minas Gerais (2011) Flora, 206, pp. 782-791. , Brazil doi:10. 1016/j. flora. 2011. 04. 003 Fahn, A., Cutler, D.F., 'Xerophytes (1992) Encyclopedia of Plant Anatomy, , Borntraeger: Berlin Falster, D.S., Westoby, M., Leaf size and angle vary widely across species: What consequences for light interception? (2003) New Phytologist, 158 (3), pp. 509-525. , DOI 10.1046/j.1469-8137.2003.00765.x Fiaschi, P., Pirani, J.R., Review of plant biogeographic studies in Brazil (2009) Journal of Systematics and Evolution, 47, pp. 477-496. , doi:10. 1111/j. 1759-6831. 2009. 00046. x Franceschi, V.R., Nakata, P.A., Calcium oxalate in plants: Formation and function (2005) Annual Review of Plant Biology, 56, pp. 41-71. , DOI 10.1146/annurev.arplant.56.032604.144106 Fujinami, R., Yoshihama, I., Imaichi, R., Dimorphic chloroplasts in the epidermis of Podostemoideae, a subfamily of the unique aquatic angiosperm family Podostemaceae (2011) Journal of Plant Research, 124, pp. 601-605. , doi:10. 1007/s10265-010-0392-8 Biodiversitas, F., (2005) 'Lista da Flora Brasileira Amea̧cada de Extiņcão Workshop Revisão da Lista da Flora Brasileira Amea̧cada de Extiņcão, , http://www.biodiversitas.org.br/cepf/edital/flora_brasil.pdf, Verified 1 September 2013 Giulietti, A.M., Pirani, J.R., Harley, R.M., (1997) Espinha̧co Range Region in Centres of Plant Diversity: A Guide and Strategy for Their Conservation, 3, pp. 397-404. , the Americas'. (Eds SD Davis, VH Heywood, O Herrera-MacBride, J Villa-Lobos, AC Hamilton. WWF-IUCN: Cambridge, UK Givnish, T.J., McDiarmid, R.W., Buck, W.R., Fire adaptation in Neblinaria celiae (Theaceae), a high-elevation rosette shrub endemic to a wet equatorial tepui (1986) Oecologia, 70, pp. 481-485. , doi:10. 1007/BF00379892 Gontijo, B.M., Uma geografia para a Cadeia do Espinha̧co A flora dos campos rupestres da Cadeia do Espinha̧co (2008) Megadiversidade, 4, pp. 7-14 Goodland, R., Ferri, M.G., (1979), Ecologia do Cerrado Universidade de São Paulo: São Paulo, BrazilHassiotou, F., Ludwig, M., Renton, M., Veneklaas, E., Evans, J., Influence of leaf dry mass per area, CO2, and irradiance on mesophyll conductance in sclerophylls (2009) Journal of Experimental Botany, 60, pp. 2303-2314. , doi:10. 1093/jxb/erp021 Hough, R.A., Wetzel, R.G., Photosynthetic pathways of some aquatic plants (1977) Aquatic Botany, 3, pp. 297-313. , doi:10. 1016/0304-3770(77)90035-3 Dados meteorológicos (2013) Instituto Nacional de Meteorologia, , http://www.inmet.gov.br/portal/, Inmet Verified 01 April 2013] James, S.A., Bell, D.T., Leaf orientation, light interception and stomatal conductance of Eucalyptus globulus ssp (2000) Globulus Leaves. Tree Physiology, 20, pp. 815-823. , doi:10. 1093/treephys/20. 12. 815 Johansen, D.A., (1940) Plant Microtechnique, , McGraw-Hill: New York Jordan, G.J., Dillon, R.A., Weston, P.H., Solar radiation as a factor in the evolution of scleromorphic leaf anatomy in Proteaceae (2005) American Journal of Botany, 92 (5), pp. 789-796 Jordan, G.J., Weston, P.H., Carpenter, R.J., Dillon, R.A., Brodribb, T.J., The evolutionary relations of sunken, covered, and encrypted stomata to dry habitats in proteaceae (2008) American Journal of Botany, 95 (5), pp. 521-530. , http://www.amjbot.org/cgi/reprint/95/5/521, DOI 10.3732/ajb.2007333 Jordan, G.J., Carpenter, R.J., Brodribb, T.J., Using fossil leaves as evidence for open vegetation (2014) Palaeogeography, Palaeoclimatology, Palaeoecology, 395, pp. 168-175. , doi:10. 1016/j. palaeo. 2013. 12. 035 Karabourniotis, G., Light-guiding function of foliar sclereids in the evergreen sclerophyll Phillyrea latifolia: A quantitative approach (1998) Journal of Experimental Botany, 49 (321), pp. 739-746 Karnovsky, M.J., A formaldehyde-glutaraldehyde fixative of high osmolality for use in electron microscopy (1965) The Journal of Cell Biology, 27, pp. 137A-138A Kofidis, G., Bosabalidis, A.M., Moustakas, M., Contemporary seasonal and altitudinal variations of leaf structural features in oregano (Origanum vulgare L.) (2003) Annals of Botany, 92 (5), pp. 635-645. , DOI 10.1093/aob/mcg180 Loeuille, B., (2011) Towards A Phylogenetic Classification of Lychnophorinae (Asteraceae: Vernonieae, , Thesis, University of São Paulo, São Paulo, Brazil Lusa, M.G., Boeger, M.R., Mo̧co, M.C.C., Bona, C., Morpho-anatomical adaptations of Potamogeton polygonus (Potamogetonaceae) to lotic and lentic environments (2011) Rodriguésia, 62, pp. 927-936 Mansanares, M.E., Forni-Martins, E.R., Semir, J., Chromosome numbers in the genus Lychnophora Mart. (lychnophorinae, Vernonieae, Asteraceae) (2002) Caryologia, 55 (4), pp. 367-374 Mansanares, M.E., Forni Martins, E.R., Semir, J., Cytotaxonomy of Lychnophora Mart (Asteraceae: Vernonieae: Lychnophorinae) species (2007) Caryologia: International Journal of Cytology, Cytosystematics and Cytogenetics, 60, pp. 21-28. , doi:10. 1080/00087114. 2007. 10589543 Marques, A.R., Garcia, Q.S., Rezende, J.L.P., Fernandes, G.W., Variations in leaf characteristics of two species of Miconia in the Brazilian cerrado under different light intensities (2000) Tropical Ecology, 41, pp. 47-60 Mello-Silva, R., Morphological and anatomical differentiation of Vellozia hirsuta populations (Velloziaceae (1990) Plant Systematics and Evolution, 173, pp. 197-208. , doi:10. 1007/BF00940863 Nakajima, J.N., Teles, A.M., Ritter, M., Mondin, C.A., Dematteis, M., Heiden, G., Borges, X.B., Sales-De-Melo, M.R.C., Asteraceae (2009) 'Plantas Raras Do Brasil: Conserva̧cão Internacional, pp. 76-89. , Ed. AM Giulietti Universidade Estadual de Feira de Santana: Belo Horizonte, BrazilNavarro, T., Alados, C.L., Cabezudo, B., Changes in plant functional types in response to goat and sheep grazing in two semi-arid shrublands of SE Spain (2006) Journal of Arid Environments, 64 (2), pp. 298-322. , DOI 10.1016/j.jaridenv.2005.05.005, PII S0140196305001357 Noble, I., Gitay, H., A functional classification for predicting the dynamics of landscapes (1996) Journal of Vegetation Science, 7, pp. 329-336. , doi:10. 2307/3236276 Oliveira, V., Sajo, M., (1999) Root Anatomy of Nine Orchidaceae Species, 42, pp. 405-413. , Brazilian Archives of Biology and Technology. doi:10. 1590/S1516-89131999000400005 Peel, M.C., Finlayson, B.L., McMahon, T.A., Updated world map of the Koppen-Geiger climate classification (2007) Hydrology and Earth System Sciences, 11 (5), pp. 1633-1644 Pérez-Harguindeguy, N., Diaz, S., Garnier, E., Lavorel, S., Poorter, H., Jaureguiberry, P., Bret-Harte, M., Cornelissen, J., New handbook for standardised measurement of plant functional traits worldwide (2013) Australian Journal of Botany, 61, pp. 167-234. , doi:10. 1071/BT12225 Podani, J., (2007) Analisi Ed Esplorazione Multivariata Dei Dati in Ecologia e Biologia, , Liguori Editore: Napoli, Italy Rapini, A., Ribeiro, P.L., Lambert, S., Pirani, J.R., A flora dos campos rupestres da Cadeia do Espinha̧co (2008) Megadiversidade, 4, pp. 15-23 Ribeiro, J.F., Walter, B.M., As principais fitofisionomias do bioma Cerrado (2008) 'Cerrado. Vol. 1: Ecologia e Flora, pp. 151-212. , Eds SM Sano, SP Almeida, JF Ribeiro, Embrapa Cerrados: Brasília, Brazil Rizzini, C.T., (1997) Tratado de Fitogeografia Do Brasil: Aspectos Ecológicos, Sociológicos e Florísticos, , Ambito Cultural Edi̧coes: Rio de Janeiro Rotondi, A., Rossi, F., Asunis, C., Cesaraccio, C., Leaf xeromorphic adaptations of some plants of coastal Mediterranean macchia ecosystem (2003) Journal of Mediterranean Ecology, 4, pp. 25-35 Sajo, M.G., Wanderley, M.G.L., Carvalho, L.M., Caracteriza̧cão anatômica foliar para 14 espécies de Xyris L (Xyridaceae) da Serra do Cipó, MG, Brasil (1995) Acta Botanica Brasilica, 9, pp. 101-114. , doi:10. 1590/S0102-33061995000100004 Sakai, W.S., Simple method for differential staining of paraffin embedded plant material using toluidine blue O (1973) Stain Technology, 48, pp. 247-249 Sakurai, N., Domoto, K., Takagi, S., Blue-light-induced reorganization of the actin cytoskeleton and the avoidance response of chloroplasts in epidermal cells of Vallisneria gigantea (2005) Planta, 221 (1), pp. 66-74. , DOI 10.1007/s00425-004-1416-1 Scatena, V.L., Giulietti, A.M., Borba, E.L., Van Den Berg, C., Anatomy of Brazilian Eriocaulaceae: Correlation with taxonomy and habitat using multivariate analyses (2005) Plant Systematics and Evolution, 253 (1-4), pp. 1-22. , DOI 10.1007/s00606-004-0295-z Semir, J., Rezende, A.R., Monge, M., Lopes, N.P., (2011) As Arnicas Endêmicas das Serras Do Brasil: Uma Visão Sobre A Biologia e A Química das Espécies de Lychnophora (Asteraceae, , Editora UFOP: Ouro Preto, MG, Brazil Sharkey, T.D., Chen, X., Yeh, S., Isoprene increases thermotolerance of fosmidomycin-fed leaves (2001) Plant Physiology, 125 (4), pp. 2001-2006. , DOI 10.1104/pp.125.4.2001 Singsaas, E.L., Lerdau, M., Winter, K., Sharkey, T.D., Isoprene increases thermotolerance of isoprene-emitting species (1997) Plant Physiology, 115 (4), pp. 1413-1420 Smith, A., Young, T., Tropical alpine plant ecology (1987) Annual Review of Ecology and Systematics, 18, pp. 137-158. , doi:10. 1146/annurev. es. 18. 110187. 001033 Stern, W.L., Judd, W.S., Carlsward, B.S., Systematic and comparative anatomy of Maxillarieae (Orchidaceae), sans Oncidiinae (2004) Botanical Journal of the Linnean Society, 144 (3), pp. 251-274. , DOI 10.1111/j.1095-8339.2003.00257.x Takagi, S., Actin-based photo-orientation movement of chloroplasts in plant cells (2003) Journal of Experimental Biology, 206 (12), pp. 1963-1969. , DOI 10.1242/jeb.00215 Turner, I.M., Sclerophylly-primarily protective (1994) Functional Ecology, 8, pp. 669-675. , doi:10. 2307/2390225 Versieux, L., Elbl, P., Wanderley, M., Menezes, N., Alcantarea (Bromeliaceae) leaf anatomical characterization and its systematic implications (2010) Nordic Journal of Botany, 28, pp. 385-397. , doi:10. 1111/j. 1756-1051. 2010. 00727. x Vogelmann, T.C., Martin, G., The function significance of palisade tissue: Penetration of directional versus diffuse light (1993) Plant, Cell & Environment, 16, pp. 65-72. , doi:10. 1111/j. 1365-3040. 1993. tb00845. x Walker, B.H., Biodiversity and ecological redundancy (1992) Conservation Biology, 6 (1), pp. 18-23