Exportar registro bibliográfico


Metrics:

Shadows of the edge effects for tropical emergent trees: the impact of lianas on the growth of Aspidosperma polyneuron (2018)

  • Authors:
  • USP affiliated author: CECCANTINI, GREGÓRIO CARDOSO TÁPIAS - IB
  • School: IB
  • DOI: 10.1007/s00468-018-1696-x
  • Subjects: BOTÂNICA (CLASSIFICAÇÃO); FRAGMENTAÇÃO FLORESTAL; DESMATAMENTO; FLORESTAS TROPICAIS; ÁRVORES FLORESTAIS; MANEJO FLORESTAL
  • Keywords: Disturbance; Atlantic Forest; Fragmentation; Growth release; Lianas; Tree rings
  • Language: Inglês
  • Imprenta:
  • Source:
    • Título do periódico: Trees
    • ISSN: 0931-1890
    • Volume/Número/Paginação/Ano: online, April 2018
  • Online source accessDOI
    Informações sobre o DOI: 10.1007/s00468-018-1696-x (Fonte: oaDOI API)
    • Este periódico é de assinatura
    • Este artigo NÃO é de acesso aberto
    • Cor do Acesso Aberto: closed

    How to cite
    A citação é gerada automaticamente e pode não estar totalmente de acordo com as normas

    • ABNT

      GODOY‐VEIGA, Milena; CECCANTINI, Gregorio; PITSCH, Philipp; et al. Shadows of the edge effects for tropical emergent trees: the impact of lianas on the growth of Aspidosperma polyneuron. Trees, Heidelberg, 2018. Disponível em: < http://dx.doi.org/10.1007/s00468-018-1696-x > DOI: 10.1007/s00468-018-1696-x.
    • APA

      Godoy‐Veiga, M., Ceccantini, G., Pitsch, P., Krottenthaler, S., Anhuf, D., & Locosselli, G. M. (2018). Shadows of the edge effects for tropical emergent trees: the impact of lianas on the growth of Aspidosperma polyneuron. Trees. doi:10.1007/s00468-018-1696-x
    • NLM

      Godoy‐Veiga M, Ceccantini G, Pitsch P, Krottenthaler S, Anhuf D, Locosselli GM. Shadows of the edge effects for tropical emergent trees: the impact of lianas on the growth of Aspidosperma polyneuron [Internet]. Trees. 2018 ;Available from: http://dx.doi.org/10.1007/s00468-018-1696-x
    • Vancouver

      Godoy‐Veiga M, Ceccantini G, Pitsch P, Krottenthaler S, Anhuf D, Locosselli GM. Shadows of the edge effects for tropical emergent trees: the impact of lianas on the growth of Aspidosperma polyneuron [Internet]. Trees. 2018 ;Available from: http://dx.doi.org/10.1007/s00468-018-1696-x

    Referências citadas na obra
    Altman J, Fibich P, Dolezal J, Aakala T (2014) TRADER: A package for tree ring analysis of disturbance events in R. Dendrochronologia 32:107–112
    Alvira D, Pütz FE, Fredericken TS (2004) Liana loads and post-logging liana densities after liana cutting in a lowland forest in Bolívia. For Ecol Manage 190:73–86
    Boninsegna JA, Villalba R, Amarilla L, Ocampo J (1989) Studies on tree rings, growth rates and age-size relationships of tropical tree species in Misiones, Argentina. IAWA Bull 10(2):161–169
    Brandes AFN, Lisi CS, Barros CF (2011) Dendrochronology of lianas of Leguminosae family from the Atlantic Forest, Brazil. Trees 25:133–144
    Brienen RJW, Zuidema PA, Martínez-Ramos M (2009) Attaining the canopy in dry and moist tropical forests: strong differences in tree growth trajectories reflect variation in growing conditions. Oecologia 163:485–496
    Brienen RJW, Schöngart J, Zuidema PA (2016) Tree rings in the tropics: insights into the ecology and climate sensitivity of tropical trees. Tree Physiol 6:439–461
    Broadbent EN, Asner GP, Keller M, Knapp DE, Oliveira PJC, Silva JN (2008) Forest fragmentation and edge effects from deforestation and selective logging in the Brazilian Amazon. Biol Cons 141:1745–1757
    Brodie J, Post E, Laurance WF (2012) Climate change and tropical biodiversity: a new tool. Trends Ecol Evol 27(3):145–150
    Brooks TM, Mittermeier RA, Mittermeier CG, da Fonseca GAB, Rylands AB, Konstant WR, Flick P, Pilgrim J, Oldfield S, Magin G, Hilton-Taylor C (2002) Habitat loss and extinction in the hotspots of biodiversity. Conserv Biol 16:909–923
    Bruna ME, Fiske IJ, Trager MD (2009) Habitat fragmentation and plant populations: is what we know demographically irrelevant? J Veg Sci 20:569–576
    Câmara IG (2003) Brief history of conservation in the Atlantic Forest. In: The Atlantic Forest of South America: Biodiversity Status, Threats, and Outlook. CABS and Island Press, Washington, pp 31–42
    Carvalho PER (2004) Peroba Rosa, Aspidosperma polyneuron. Colombo-PR. Circular Técnica N. 96 EMBRAPA
    Chagas RK, Durigan D, Contieri WA, Saito M (2004) Crescimento diametral de espécies arbóreas em floresta estacional semidecidual ao longo de seis anos. Pesquisas em conservação e recuperação ambiental no Oeste Paulista: resultados da cooperação Brasil/Japão. Páginas e Letras, São Paulo
    Chen J, Saunders SC, Crow TR, Naiman RJ, Brosofske KD, Mroz GD, Brookshire BL, Franklin JF (1999) Microclimate in forest ecosystem and landscape ecology. Bioscience 49(4):288–297
    Clark DB, Clark DA (1990) Distribution and effects on tree growth of lianas and woody hemiepiphytes in a Costa Rican tropical wet forest. J Trop Ecol 6:321–331
    Clark DA, Clark DB (1992) Life history diversity of canopy and emergent trees in a neotropical rainforest. Ecol Monogr 62:315–344
    Copenheaver CA, Kyle KH, Stevens GN, Kamp MH (2005) Comparing Juniperus Virginia tree-ring chronologies from forest edge vs. forest interior positions in the Cedars Natural Area Preserve in Virginia, USA. Dendrochronologia 23:39–45
    Dantas PM, Alves Costa CP, Tabarelli M (2011) Carbon storage in a fragmented landscape of Atlantic forest: the role played by edge-affected habitats and emergent trees. Trop Conserv Sci 4(3):349–358
    Dean W (1996) With broadax and firebrand: the destruction of the Brazilian Atlantic Forest. University of California Press, California
    Driscoll DA, Banks SC, Barton PS, Lindenmayer DB, Smith AL (2013) Conceptual domain of the matrix in fragmented landscapes. Trends Ecol Evol 28(10):605–613
    Durigan G, Franco GADC., Saito M, Baitello JB (2000) Estrutura e diversidade do componente arbóreo da floresta na Estação Ecológica dos Caetetus, Gália, SP. Rev Brasileira de Bot 23(4):371–383
    Ennos AR (1997) Wind as an ecological factor. Trends Ecol Evol 12:108–111
    Farah FT, Rodrigues RR, Santos FAM, Tamashiro JY, Shepherd GJ, Siqueira T, Batista JLF, Manly BJF (2014) Forest destructuring as revealed by the temporal dynamics of fundamental species—Case study of Santa Genebra Forest in Brazil. Ecol Ind 37:40–44
    Ferreira L (2002) Periodicidade do crescimento e formação da madeira de algumas espécies arbóreas de florestas estacionais semidecíduas da região sudeste do estado de São Paulo. Escola Superior de Agricultura “Luiz de Queiroz”. Universidade de São Paulo, Piracicaba
    Gerwing JJ (2001) Testing liana cutting and controlled burning as silvicultural treatments for a logged forest in the eastern Amazon. J Appl Ecol 38:1264–1276
    Grauel WT, Pütz FE (2004) Effects of lianas on growth and regeneration of Prioria copaifera in Darien, Panama. For Ecol Manage 190:99–108
    Haddad NM, Brudvig LA, Clobert J, Davies KF, Gonzalez A, Holt RD, Lovejoy TE, Sexton JO, Austin MP et al (2015) Habitat fragmentation and its lasting impact on Earth’s ecosystems. Sci Adv 1(2):e1500052
    Hansen MC, Potapov PV, Moore R, Hancher M, Turubanova SA, Tyukavina A, Thau D, Stehman SV, Goetz SJ et al (2013) High-resolution global maps of 21st-century forest cover change. Science 342:850–853
    Hietz P (2011) A simple program to measure and analyze tree rings using Excel, R and SigmaScan. Dendrochronologia 29:245–250
    Ingwell LL, Wright SJ, Becklund KK, Hubbell SP, Schnitzer SA (2010) The impact of lianas on 10 years of tree growth and mortality on Barro Colorado Island, Panama. J Ecol 98:879–887
    Jímenez AMB (2017) Dinámica del crecimiento y relación con el clima de especies arbóreas de los bosques de la región Caribe, Colombia. Universidad Nacional de Colombia, Instituto de Ciencias Naturales Bogotá, Colombia
    Júnior AA (2014) Estrutura populacional e dendroecologia de Araucaria angustifólia (Bertol.) Kuntze em diferentes condições de crescimento no Parque Nacional do Iguaçu/PR: interior e borda de floresta natural. Dissertação apresentada para obtenção do título de Mestre. Universidade Federal do Paraná, Curitiba
    Kainer KA, Wadt LHO, Gomes-Silva DAP, Capanu M (2006) Liana loads and their association with Bertholletia excels fruit and nut production, diameter growth and crown attributes. J Trop Ecol 22:147–154
    Krottenthaler S, Pitsch P, Helle G, Locosselli GM, Ceccantini G, Altman J, Svoboda M, Dolezal J, Scheleser G, Anhuf D (2015) A power-driven increment borer for sampling high-density tropical wood. Dendrochronologia 36:40–44
    Laurance WF, Yensen E (1991) Predicting the impacts of edge effects in fragmented habitats. Biol Cons 55:77–92
    Laurance WF, Ferreira LV, Rankin de Merona JM, Laurance SG (1998) Rain forest fragmentation and the dynamics of Amazonian tree communities. Ecology 79:2032–2040
    Laurance WF, Delamonica P, Laurance SG, Vasconcelos HL, Lovejoy TE (2000) Rainforest fragmentation kills big trees. Nature 404:836
    Laurance WF, Andrade AS, Magrach A, Camargo JLC, Valsko JJ, Campbell M, Fearnside PM, Edwards W, Lovejoy TE, Laurance SG (2014) Long-term changes in liana abundance and forest dynamics in undisturbed Amazonian forests. Ecology 95(6):1604–1611
    Lindenmayer DB, Laurence WF, Franklin JF (2012) Global decline in large old trees. Science 338:1305–1306
    Lisi SL, Tomazello M, Botosso PC, Roig FA, Maria VRB, Ferreira-Fedele L, Voigt ARA (2008) Tree-ring formation, radial increment periodicity, and phenology of tree species from a seasonal semi-deciduous Forest in southeast Brazil. IAWA J 29(2):189–207
    Locosselli GM, Buckeridge MS (2017) Dendrobiochemistry, a missing link to further understand carbon allocation during growth and decline of trees. Trees Struct Funct 31:1754–1758
    Locosselli GM, Krottenthaler S, Pitsch P, Anhuf D, Ceccantini GC (2017) Age and growth rate of congeneric tree species (Hymenaea spp.–Leguminosae) Inhabiting different tropical biomes. Erdkunde 71(1):45–57
    Longhi-Santos T (2017) Dendroecologia de Aspidosperma polyneuron Müll. Arg. em duas condições geomorfológicas no sul do Brasil. Universidade Federal do Paraná, Curitiba
    Lorenzi H (2014) Árvores brasileiras: manual de identificação e cultivo de plantas arbóreas nativas do Brasil. vol 1, 6ª Edição. Instituto Plantarum de Estudos da Flora, São Paulo
    MacDonlad RI, Urban DL (2004) Forest edges and tree growth rates in the North Carolina Piedmont. Ecology 85(8):2258–2266
    Metzger JP, Martensen AC, Dixo M, Bernacci LC, Ribeiro MC, Teixeira AMG, Pardini R (2009) Time-lag biological responses to landscape changes in a highly dynamic Atlantic forest region. Biol Cons 142:1166–1177
    Murcia C (1995) Edge effects in fragmented forests: implications for conservation. Trends Ecol Evol 10:58–62
    Nowacki GJ, Abrams MD (1997) Radial-growth averaging criteria for reconstructing disturbance histories from presettlement-origin oaks. Ecol Monogr 67:225–249
    Oliveira MA, Santos AMM, Tabarelli M (2008) Profound impoverishment of the largetree stand in a hyper-fragmented landscape of the Atlantic forest. For Ecol Manage 256:1910–1917
    Pérez-Salicrup D, Barker MG (2000) Effect of liana cutting on water potential and growth of adult Senna multijuga (Caesalpinioideae) trees in a Bolivian tropical forest. Oecologia 124:469–475
    Peters RL, Groenendijk P, Vlam M, Zuidema PA (2015) Detecting long-term growth trends using tree rings: a critical evaluation of the methods. Glob Change Biol 21:2040–2054
    Phillips OL, Martínez RV, Arroyo L, Baker TR, Killeen T, Lewis SL, Malhi Y, Mendoza AM, Neill D, Vargas PN et al (2002) Increasing dominance of large lianas in Amazonian forests. Nature 418:770–774
    Pitsch P, Krottenthaler S, Locosselli GM, Altman J, Neuwirth B, Ceccantini GCT (2017) On the suitability of Cariniana Estrellensis (Raddi) Kuntze for dendroclimatic studies: the problem of Chronology building and trends in lifetime growth trajectories. Erdkunde 71(1):59–75
    Pütz S, Groeneveld J, Alves LF, Metzger JP, Huth A (2011) Fragmentation drives tropical forest fragments to early successional states: a modelling study for Brazilian Atlantic forests. Ecol Model 222:1986–1997
    R Core Team (2013) R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna
    Ribeiro MC, Metzger JP, Martensen AC, Ponzoni FJ, Hirota MM (2009) The Brazilian Atlantic Forest: How much is left, and how is the remaining forest distributed? Implications for conservation. Biol Conserv 142:1141–1153
    Rozendaal AMD, Zuidema AP (2011) Dendroecology in the tropics: a review. Trees 25:3–16
    Santos BA, Peres CA, Oliveira MA, Grillo A, lves-Costa CP, Tabarelli M (2008) Drastic erosion in functional attributes of tree assemblages in Atlantic forest fragments of northeastern Brazil. Biol Conserv 141:249–260
    Schneider CA, Rasband WS, Eliceiri KW (2012) NIH Image to ImageJ: 25 years of image analysis. Nat Methods 9(7):671–675
    Schnitzer SA, Bongers F (2002) The ecology of lianas and their role in forests. Trends Ecol Evol 17:223–230
    Schnitzer SA, Bongers F (2011) Increasing liana abundance and biomass in tropical forests: Emerging patterns and putative mechanism. Ecol Lett 14:397–406
    Schnitzer SA, Carson WP (2010) Lianas suppress tree regeneration and diversity in treefall gaps. Ecol Lett 849–857
    Schnitzer SA, Kuzee M, Bongers F (2005) Disentangling above-and belowground competition between lianas and trees in a tropical forest. J Ecol 93:1115–1125
    Schöngart J, Bräuning A, Barbosa ACMC., Lisi CS, Oliveira JM (2017) Dendroecological studies in the Neotropics - history, status and future challenges. https://doi.org/10.1007/978-3-319-61669-8$43
    Schweingruber FH (1988) Tree rings. Basics and applications of dendrochronology. Kluwer, Dordrecht
    Sentelhas PC, Destefani ACC, Santos EA, Marin FR, Pardi MM, Muniz MRA, Lima RAF, Gandolfi S (2005) Parte II—Fatores Abióticos. Clima. Relatório Científico do Projeto Parcelas Permanentes
    Sfair JC, Ribeiro BR, Pimenta EP, Gonçalves T, Ramos FN (2013) A importância da luz na ocupação de árvores por lianas. Rodriguésia 64(2):255–261
    Sleen P, Grownendijk P, Vlam M, Anten NPR, Boom A, Bongers F, Pons TL, Terburg G, Zuidema PA (2015) No growth stimulation on tropical trees by 150 years of CO2 fertilization but water-use efficiecy increased. Nat Geosci 8:24–28
    Swaine MD, Hall JB, Alexander IJ (1987) Tree population dynamics at Kade, Ghana (1968–1982). J Trop Ecol 3:331–345
    Tabanez MF, Durigan G, Keuroghlian A, Barbosa AF, Freitas CA, Silva CEF, Silva DA, Eaton DP, Brisolla G et al. (2005) Plano de Manejo da Estação Ecológica dos Caetetus, vol 29. Instituto Florestal, São Paulo, pp 1–103
    Tabarelli M, Silva JMC, Gascon C (2004) Forest fragmentation, synergisms and the impoverishment of neotropical forests. Biodivers Conserv 13:1419–1425
    Torezan JMD, Souza RF, Ruas PM, Ruas CF, Camargo EH, Vanzela ALL (2005) Genetic Variability of Pre and Post-Fragmentation Cohorts of Aspidosperma polyneuron Muell. Arg (Apocynaceae) Braz Arch Biol Technol 48(2):171–180
    Van der Meer PJ, Bongers F (1996) Patterns of tree-fall and branch-fall in a tropical forest in French Guiana. J Ecol 84:19–29
    Vidal E, Viana V, Batista JLF (2002) Crescimento de floresta tropical três anos após colheita de madeira com e sem manejo florestal na Amazônia oriental. Sci For 61:133–143
    Wickham H (2009) ggplot2: Elegant Graphics for Data Analysis. Springer, New York
    Williams M (2003) Deforesting the Earth: from prehistory to global crisis. University of Chicago Press, Chicago, p 715

Digital Library of Intellectual Production of Universidade de São Paulo     2012 - 2020