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Plant Biosystems - An International Journal Dealing with all Aspects of Plant Biology
Official Journal of the Societa Botanica Italiana
Volume 154, 2020 - Issue 2
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Original Articles

Long-term carbon stock recovery in a neotropical-logged forest

José Rafael Lozada DávilaInstituto de Investigaciones para el Desarrollo Forestal, Facultad de Cs. Forestales y Ambientales, Universidad de Los Andes, Mérida, Venezuela; Correspondence[email protected]
,
Pilar SorianoJardín Botánico de la Universidad de Valencia, Valencia, Spain;
,
Manuel CostaJardín Botánico de la Universidad de Valencia, Valencia, Spain;
,
Ana María García-QuinteroEscuela de Ingeniería Forestal, Facultad de Ciencias Forestales y Ambientales, Universidad de Los Andes, Mérida, Venezuela
,
Domingo SánchezInstituto de Investigaciones para el Desarrollo Forestal, Facultad de Cs. Forestales y Ambientales, Universidad de Los Andes, Mérida, Venezuela;
,
Alberto VillarrealInstituto de Investigaciones para el Desarrollo Forestal, Facultad de Cs. Forestales y Ambientales, Universidad de Los Andes, Mérida, Venezuela;
&
Ernesto ArendsInstituto de Investigaciones para el Desarrollo Forestal, Facultad de Cs. Forestales y Ambientales, Universidad de Los Andes, Mérida, Venezuela;
show all
Pages 241-247 | Received 12 Jul 2018, Accepted 26 Feb 2019, Published online: 23 Apr 2019

References

  • Asner GP, Rudel TK, Aide TM, Defries R, Emerson R. 2009. A contemporary assessment of change in humid tropical forests. Conserv Biol. 23(6):1386–1395.
  • Baker TR, Phillips OL, Malhi Y, Almeida S, Arroyo L, Di Fiore A, Erwin T, Killeen TJ, Laurance SG, Laurance WF. 2004a. Variation in wood density determines spatial patterns in Amazonian forest biomass. Global Change Biol. 10(5):545–562.
  • Baker TR, Phillips OL, Malhi Y, Almeida S, Arroyo L, Di Fiore A, Erwin T, Higuchi N, Killeen TJ, Laurance SG. 2004b. Increasing biomass in Amazonian forest plots. Philos T Roy Soc B. 359(1443):353–365.
  • Berenguer E, Ferreira J, Gardner T, Aragão L, De Camargo P, Cerri C, Durigan M, De Oliveira R, Guimarães I, Barlow J. 2014. A large‐scale field assessment of carbon stocks in human‐modified tropical forests. Glob Change Biol. 20(12):3713–3726.
  • Blanc L, Echard M, Herault B, Bonal D, Marcon E, Chave J, Baraloto C. 2009. Dynamics of aboveground carbon stocks in a selectively logged tropical forest. Ecol Appl. 19(6):1397–1404.
  • Brown S, Lugo A. 1982. The storage and production of organic matter in tropical forests and their role in the global carbon cycle. Biotropica. 14(3):161–187.
  • Brown S, Pearson T, Moore N, Parveen A, Ambagis S, Shoch D. 2005. Impact of selective logging on the carbon stocks of tropical forests: Republic of Congo as a case study. Arlington, TX: Winrock International, USAID.
  • Budant Schaaf L, Figueiredo Filho A, Galvão F, Sanquetta C. 2006. Alteração na estrutura diamétrica de uma floresta ombrófila mista no período entre 1979 e 2000. Rev Árvore. 30(2):283–295.
  • Chambers J, Higuchi N, Teixeira L, Dos Santos J, Laurance S, Trumbore S. 2004. Response of tree biomass and wood litter to disturbance in a Central Amazon forest. Oecologia. 141(4):596–611.
  • Chave J, Olivier J, Bongers F, Chatelet P, Forget M, Van Der Meer P, Norden N, Riéra B, Charles-Dominique P. 2008. Above-ground biomass and productivity in a rain forest of eastern South America. J Trop Ecol. 24(04):355–366.
  • Chave J, Réjou-Méchain M, Búrquez A, Chidumayo E, Colgan MS, Delitti WBC, Duque A, Eid T, Fearnside PM, Goodman RC, et al. 2014. Improved allometric models to estimate the aboveground biomass of tropical trees. Glob Chang Biol. 20(10):3177–3190.
  • Corona P. 2018. Communicating facts, findings and thinking to support evidence-based strategies and decisions. Ann Silvic Res. 42(1):1–2.
  • Corredor J. 2001. Silvicultura Tropical. Consejo de Publicaciones, Consejo de Desarrollo Científico, Humanístico y Tecnológico. Mérida, Venezuela: Universidad de Los Andes.
  • Delaney M, Brown S, Lugo A, Torres A, Bello N. 1997. The distribution of organic carbon in major components of forests located in five life zones of Venezuela. J Trop Ecol. 13(05):697–708.
  • DeWalt SJ, Maliakal SK, Denslow JS. 2003. Changes in vegetation structure and composition along a tropical forest chronosequence: implications for wildlife. Forest Ecol Manag. 182(1-3):139–151.
  • Dixon RK, Solomon AM, Brown S, Houghton RA, Trexier MC, Wisniewski J. 1994. Carbon pools and flux of global forest ecosystems. Science. 263(5144):185–190.
  • Fox J, Yosi C, Nimiago P, Oavika F, Pokana J, Lavong K, Keenan R. 2010. Assessment of aboveground carbon in primary and selectively harvested tropical forest in Papua New Guinea. Biotropica. 42(4):410–441.
  • Fox J, Vieilledent G, Yosi C, Pokana J, Keenan R. 2011. Aboveground forest carbon dynamics in Papua New Guinea: isolating the influence of selective harvesting and El Niño. Ecosystems. 14(8):1276–1128.
  • Franco W. 1982. Estudio y levantamiento de sitios con fines de manejo forestal en la Unidad Uno de la Reserva Forestal Caparo, Estado Barinas. Trabajo de Ascenso. Mérida, Venezuela: Facultad de Ciencias Forestales, Universidad de Los Andes.
  • García-Berthou E, Alcaraz C, Benejam L, Benito J. 2009. Diseño experimental y análisis de datos. In: Elosegui A, Sabater S, editors. Conceptos y técnicas en ecología fluvial. España: Fundación BBVA. pp. 397–412.
  • Hays W. 1988. Statistics. New York, NY: Holt, Rineheart and Winston. [CrossRef]
  • Henry M, Besnard A, Asante W, Eshun J, Adu-Bredu S, Valentini R, Bernoux M, Saint-André L. 2010. Wood density, phytomass variations within and among trees, and allometric equations in a tropical rainforest of Africa. Forest Ecol Manag. 260(8):1375–1388.
  • Houghton A, Lawrence L, Hackler L, Brown S. 2001. The spatial distribution of forest biomass in the Brazilian Amazon: a comparison of estimates. Glob Change Biol. 7(7):731–746.
  • Hueck K. 1972. Mapa de vegetación de América del Sur. 1:8 000 000. Stuttgart, Germany.
  • Imai N, Samejima H, Langner A, Ong RC, Kita S, Titin J, Chung AYC, Lagan P, Lee YF, Kitayama K. 2009. Co-benefits of sustainable forest management in biodiversity conservation and carbon sequestration. PLoS ONE. 4(12):e8267.
  • IPCC 1996. Directrices del IPCC para los inventarios nacionales de gases de efecto invernadero; [accessed 20 November 2015]. http://www.ipcc-nggip.iges.or.jp/public/gl/spanish.html.
  • Joseph S, Reddy C, Thomas A, Srivastava S, Srivastava V. 2010. Spatial interpolation of carbon stock: a case study from the Western Ghats biodiversity hotspot, India. Int J Sust Dev World. 17(6):481–486.
  • Jurgenson O. 1994. Mapa de vegetación y uso actual del Área Experimental de la Reserva Forestal de Caparo, Estado Barinas. Facultad de Ciencias Forestales. Mérida, Venezuela: Universidad de Los Andes. Cuaderno del Comodato.
  • Kammesheidt L, Torres A, Franco W, Plonczak M. 2001. History of logging and silvicultural treatments in the western Venezuelan plain forests and the prospect for sustainable forest management. Forest Ecol Manag. 148(1-3):1–20.
  • Kammesheidt L, Köhler P, Huth A. 2002. Simulating logging scenarios in secondary forest embedded in a fragmented neotropical landscape. Forest Ecol Manag. 170(1-3):89–105.
  • Kauffman J, Hughes R, Heider C. 2009. Carbon pool and biomass dynamics associated with deforestation, land use, and agricultural abandonment in the neotropics. Ecol Appl. 19(5):1211–1222.
  • Laiho R, Laine J. 1997. Tree stand biomass and carbon content in an age sequence of drained pine mires in southern Finland. Forest Ecol Manag. 93(1-2):161–169.
  • Lamprecht H. 1990. Silvicultura en los trópicos. Eschborn, Germany: Agencia de Cooperación Técnica Alemana (GTZ).
  • Li X, Yi M, Son Y, Park P, Lee K, Son Y, Kim R, Jeong M. 2011. Biomass and carbon storage in an age-sequence of Korean Pine (Pinus koraiensis) plantation forests in Central Korea. J Plant Biol. 54(1):33–42.
  • Liu Y, Zhang Y, Liu S. 2012. Aboveground carbon stock evaluation with different restoration approaches using tree ring chronosequences in Southwest China. Forest Ecol Manag. 263:39–46.
  • Lozada J, Arends E, Sánchez D, Villarreal A, Soriano P, Costa M. 2009. Cambios de composición florística en bosques aprovechados de la Estación Experimental Caparo. Revista Forestal Latinoamericana. Revista Forestal Latinoamericana. 24(2):35–50.
  • Lozada J, Lugo L, Sánchez D, Villarreal A, Soriano P, Costa M. 2010. Influencia del suelo sobre las variaciones del sotobosque, en patios de rolas abandonados, Estación Experimental Caparo, Venezuela. Revista Forestal Latinoamericana. 25:36–56.
  • Lozada J, Arends E, Sánchez D, Villarreal A, Soriano P, Costa M. 2012. Vegetation succession of logged forest in the western alluvial plains of Venezuela. J Trop for Sci. 24(3):300–311.
  • Luyssaert S, Inglima I, Jung M, Richardson AD, Reichstein M, Papale D, Piao SL, Schulze E-D, Wingate L, Matteucci G, et al. 2007. CO2 balance of boreal, temperate, and tropical forests derived from a global database. Global Change Biol. 13(12):2509–2537.
  • Malhi Y, Wood D, Baker TR, Wright J, Phillips OL, Cochrane T, Meir P, Chave J, Almeida S, Arroyo L, et al. 2006. The regional variation of aboveground live biomass in old-growth Amazonian forests. Global Change Biol . 12(7):1107–1138.
  • Malhi Y. 2010. The carbon balance of tropical forest regions, 1990-2005. Curr Opin Env Sust. 2(4):237–244.
  • Mazzei L, Sist P, Ruschel A, Putz F, Marco P, Pena W, Ferreira J. 2010. Above-ground biomass dynamics after reduced-impact logging in the Eastern Amazon. Forest Ecol Manag. 259(3):367–373.
  • Montgomery D. 1991. Diseño y análisis de experimentos. México DF: Grupo Editorial Iberoamericana.
  • Osborne T, Kiker C. 2005. Carbon offsets as an economic alternative to large-scale logging: a case study in Guyana. Ecol Econ. 52(4):481–496.
  • Pacheco C, Aguado I, Mollicone D. 2011. Las causas de la deforestación en Venezuela: un estudio retrospectivo. Biollania. 10:281–292.
  • Peña M, Saldarriaga J, Duque-Montoya A. 2011. Acumulación de carbono y cambios estructurales en bosques secundarios del oriente antioqueño, Colombia. Actualidades Biológicas. 33(95):209–217.
  • Phillips OL, Baker TR, Arroyo L, Higuchi N, Killeen TJ, Laurance WF, Lewis SL, Lloyd J, Malhi Y, Monteagudo A, et al. 2004. Pattern and process in Amazon tree turnover, 1976-2001. Philos Trans R Soc Lond B, Biol Sci. 359(1443):381–407.,
  • Piponiot C, Sist P, Mazzei L, Peña-Claros M, Putz F, Rutishauser E, Shenkin A, et al. 2016. Carbon recovery dynamics following disturbance by selective logging in Amazonian forests. eLife. 5:e21394.
  • Putz F, Zuidema P, Pinard M, Boot R, Sayer J, Sheil D, Sist P, Vanclay J. 2008. Improved tropical forest management for carbon retention. PLoS Biology. 6(7)
  • Putz FE, Zuidema PA, Synnott T, Peña-Claros M, Pinard MA, Sheil D, Vanclay JK, Sist P, Gourlet-Fleury S, Griscom B, et al. 2012. Sustaining conservation values in selectively logged tropical forests: the attained and the attainable. Conserv Lett. 5(4):296–303.
  • Rivas-Martínez S. 2004. Clasificación Bioclimática de la Tierra; [accessed 18 April 2016] http://www.ucm.es/info/cif/book/global_bioclimatics_7.htm.
  • Saatchi S, Houghton A, Dos Santos A, Soares J, Yu Y. 2007. Distribution of aboveground live biomass in the Amazon basin. Glob Change Biol. 13(4):816–837.
  • Schargel R. 2005. Geomorfología y suelos de los llanos venezolanos. In: Hétier J, López R, editors. Tierras llaneras de Venezuela. Mérida, Venezuela: IRD, CIDIAT and UNELLEZ, pp. 57–113.
  • SPSS 2006. Manual del Usuario de SPSS Base 15.0. Chicago (IL): SPSS Inc.
  • Strain B, Cure J, editors. 1985. Direct effects of increasing carbon dioxide on vegetation. Washington (DC): United States Department of Energy, DOE/ER-0238.
  • Ueyama M, Tahara N, Iwata H, Euskirchen E, Ikawa H, Kobayashi H, Nagano H, Nakai T, Harazono Y. 2016. Optimization of a biochemical model with eddy covariance measurements in black spruce forests of Alaska for estimating CO2 fertilization effects. Agr Forest Meteorol. 222:98–111.
  • Vásquez-Yanes C, Guevara S. 1985. Caracterización de los grupos ecológicos de árboles de la selva húmeda. In: Gómez-Pompa A, Del Amo S, editors. Investigaciones sobre la Regeneración de Selvas Altas en Veracruz, México (Vol II). Mexicana, México: Editorial Alhambra; p. 67–78.
  • Vilanova E, Ramírez H, Torres A. 2010. El almacenamiento de carbono en la biomasa aérea como indicador del impacto del aprovechamiento de maderas en la Reserva Forestal Imataca, Venezuela. Interciencia. 35(9):659–665.
  • Zanne A, López-González G, Coomes D, Ilic J, Jansen S, Lewis S, Miller R, Swenson N, Wiemann M, Chave J. 2009. Global wood density database. [accessed 22 June 2016]. http://hdl.handle.net/10255/dryad.235.

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