1. bookVolume 68 (2019): Issue 1 (January 2019)
Journal Details
License
Format
Journal
eISSN
2509-8934
First Published
22 Feb 2016
Publication timeframe
1 time per year
Languages
English
access type Open Access

Genetic control of silvicultural traits in Balfourodendron riedelianum (ENGL.) ENGL.

Published Online: 15 Jun 2019
Volume & Issue: Volume 68 (2019) - Issue 1 (January 2019)
Page range: 73 - 78
Journal Details
License
Format
Journal
eISSN
2509-8934
First Published
22 Feb 2016
Publication timeframe
1 time per year
Languages
English
Abstract

The Atlantic Forest has very high levels of biodiversity and is considered one of the most important and threatened biomes in the world. Balfourodendron riedelianum is one of the forest’s characteristic tree species that is currently under considered endangered due to timber extraction and forest fragmentation. With the goal of generating information that may contribute to the genetic conservation of B. riedelianum, genetic parameters are estimated for quantitative traits important for silviculture in a provenance and progeny test located in the Experimental Station of Luiz Antônio, São Paulo State, Brazil. The test was established in 1986 and consists of three provenances, from which open-pollinated seeds from 19 seed trees were collected. The following traits were evaluated at 32 years of age: diameter at breast height (DBH), total height (H), stem height (SH), stem straightness (SS), and forking (FOR). The estimates were carried out using the REML/BLUP method. Significant genetic variation among progenies was detected for all traits (except SH) and between provenances for DBH. The coefficient of individual genetic variation (CVgi) ranged from 2.5 to 9.5 %. The mean heritability among progeny (hf2$h_f^2$) was substantial for DBH (0.44) and FOR (0.36), enabling the selection of families with the highest DBH and lowest FOR for population improvement. Genotypic and phenotypic correlations among traits were also found. We conclude that there is genetic variability in the population that can be exploited in future breeding programs and for the genetic conservation of the species.

Keywords

Aguiar BI (2018) Diversidade genética e conservação de Balfourodendron riedelianuam (Engl.) Engl. 136p. Tese de doutorado. Escola Superior de Agricultura “Luiz de Queiroz”, Universidade de São Paulo. https://doi.org/10.11606/t.91.2019.tde-22112018-16245910.11606/T.91.2019.tde-22112018-162459Search in Google Scholar

Aguilar R, Quesada M, Ashworth L, Herrerias-Diego Y, Loco J (2008) Genetic consequences of habitat fragmentation in plant populations: susceptible signals in plant traits and methodological approaches. Molecular Ecology 17: 5177–5188. https://doi.org/10.1111/j.1365-294X.2008.03971.x10.1111/j.1365-294X.2008.03971.x19120995Open DOISearch in Google Scholar

Bates D, Machler M, Bolker B, Walker S (2015) Fitting Linear Mixed-Effects Models Using lme4. Journal of Statistical Software 67: 1–48. https://doi.org/10.18637/jss.v067.i0110.18637/jss.v067.i01Search in Google Scholar

Canuto DSO, Silva AM, Freitas MLM, Sebbenn AM, Moraes MLT (2016) Genetic Variability in Myracrodruon urundeuva (Allemão) Engl. Progeny Tests. Open Journal of Forestry 7: 1–10. https://doi.org/10.4236/ojf.2017.7100110.4236/ojf.2017.71001Open DOISearch in Google Scholar

Carmo ALM, Mazaratto EJ, Eckstein B, Santos AF (2017) Associação de fungos com sementes de espécies florestais nativas. Summa Phytopathologica 43: 246–247. https://doi.org/10.1590/0100-5405/221110.1590/0100-5405/2211Open DOISearch in Google Scholar

Carvalho PER (2004) Pau-Marfim, Balfourodendron riedelianum. Circular Técnica, Embrapa Floresta. Degen B, Sebbenn AM (2014) Genetics and tropical forest, pp. 1–30. in Tropical Forest handbook, edited by L. Pancel and M. Köhl, Springer, Berlin, Heidelberg. https://doi.org/10.1007/978-3-642-41554-8_75-110.1007/978-3-642-41554-8_75-1Open DOISearch in Google Scholar

Hayward MD, Hamilton NRS (1997) Genetic diversity – Population structure and conservation, pp. 49–76 in Biotechnology and plant genetic resources: conservation and use, edited by Callow, J.A.; Fordly-Lloyd, B.V.; Newbury, H.J. CAB International, Wallingford, UK.Search in Google Scholar

IUCN - International Union for Conservation of Nature (2015) Red List of Threatened Species. Version 2015-4. http://www.iucnredlist.org/search> [cited dd/04/2016]Search in Google Scholar

Kareiva P, Watts S, McDonald R, Boucher T (2007) Domesticated nature: Shaping landscape and ecosystems for human welfare. Science 316: 1866–1869. https://doi.org/10.1126/science.114017010.1126/.1140170Open DOISearch in Google Scholar

Kubota TYK, Moraes MA, Silva ECB, Pupin S, Aguiar AV, Moraes MLT, Freitas MLM, Sato AS, Machado JAR Sebbenn AM (2015) Genetic variability of silvicultural traits in opened-pollinated progenies of Balfourodendron riedelianum (Engler). Scientia Forestalis 43: 407–415.Search in Google Scholar

Lander TA, Boshier DH, Harris SA (2010) Fragmented but not isolated: contribution of single trees, small patches and long distance pollen flow to genetic connectivity for Gomortega keule, and endangered tree. Biological Conservation 143: 2583–2590. https://doi.org/10.1016/j.biocon.2010.06.02810.1016/j.biocon.2010.06.028Open DOISearch in Google Scholar

Leonardecz-Neto E, Vencovsky R, Sebbenn AM (2003) Adjusting to plant competition in forestry tree progeny and provenance trials. Scientia Forestalis 63: 136–149.Search in Google Scholar

Lima I.L, Macedo HR, Gallo PB, Gonçalves OS, Garcia JN, Longui EL, Freitas MLM, Sebbenn AM (2015) Seleção de clones de Hevea brasiliensis para a região de Mococa, Estado de São Paulo. Revista do Instituto Florestal 27: 137–143. https://doi.org/10.4322/rif.2015.01010.4322/rif.2015.010Open DOISearch in Google Scholar

Lorenzi H (2008) Brazilian trees: manual of identification and cultivation of native tree plants of Brazil. Nova Odessa: Instituto Plantarum. Magnussen S, Yeatman CW (1987) Adjusting for interrow competition in Jack pine provenance trial. Silvae Genetica 36 (5/6): 206–214.Search in Google Scholar

Manoel RO, Alves PF, Dourado CL, Gaino APSC, Freitas MLM, Moraes MLT, Sebbenn AM (2012) Contemporary pollen flow, mating patterns and effective population size inferred from paternity analysis in a small fragmented population of the Neotropical tree Copaifera langsdorffii Desf. (Leguminosae-Caesalpinioideae). Conservation Genetics 13: 613–623. https://doi.org/10.1007/s10592-011-0311-010.1007/s10592-011-0311-0Open DOISearch in Google Scholar

Martins K, Santos WSD, Quadros TMC, Aguiar AV, Machado JAR, Sebbenn AM, Freitas MLM (2018) Genetic variation and effective population size of a Myracrodruon urundeuva (Engler) Fr. Allem. provenance and progeny test. Journal of Forest Research 23: 228–236. https://doi.org/10.1080/13416979.2018.148313010.1080/13416979.2018.1483130Open DOISearch in Google Scholar

Menegatti RD, Mantovani A, Navroski MC (2016) Genetic parameters for early growth traits in bracatinga progenies in Lages, SC, Brazil. Pesquisa Florestal Brasileira 36: 235–243. DOI 10.4336/2016.pfb.36.87.100310.4336/2016.pfb.36.87.1003Open DOISearch in Google Scholar

Moreira JP, Shimizu JY, Sousa VA, Moraes MLT, Moura NF, Aguiar AV (2014) Expected gain in selection of Pinus elliottii var. elliottii for timber production at an early age. Pesquisa Florestal Brasileira 34: 99–109. DOI 10.4336/2014. pfb.34.78.48810.4336/2014.pfb.34.78.488Open DOISearch in Google Scholar

Pavan BE, Paula RC, Perecin D, Candido LS, Scarpinati EA (2011) Minimizing inter-genotypic competition effects to predict genetic values and selection in forestry genetic tests. Scientia Agricola 68: 671–678. https://doi.org/10.1590/s0103-9016201100060001110.1590/s0103-90162011000600011Open DOISearch in Google Scholar

Pimentel-Gomes, F.; Garcia, C.H. (2002). Estatística aplicada a experimentos agronômicos e florestais: exposição com exemplos e orientações para uso de aplicativos. Piracicaba: FEALQ. R Core Team (2017) R: A language and environment for statistical computing. R Foundation for Statistical Computing, Vienna, Austria. https://www.R-project.org/.Search in Google Scholar

Resende MDV, Bertolucci FLG (1995) Maximization of genetic gain with restriction on effective population size and inbreeding in Eucalyptus grandis. pp. 167-170. In IUFRO Conference on Eucalyptus Plantations: improving fiber yield and quality. Hobart, Australia. Proceeding Papers. Sandy Bay: CRCTHF.Search in Google Scholar

Resende MDV (2002) Genética biométrica e estatística no melhoramento de plantas perenes. Brasilia: Embrapa Informação Tecnológica: Colombo: Embrapa Florestas. Ribeiro MC, Metzger JP, Martensen AC, Ponzoni FJ, Hirato MM (2009) The Brazilian Atlantic Forest: How much is left, and how is the remaining forest distributed? Implictions for conservation. Biological Conservation 142: 1141– 1153. https://doi.org/10.1016/j.biocon.2009.02.02110.1016/j.biocon.2009.02.021Open DOISearch in Google Scholar

Rocha RB, Rocha MGB, Rocha D, Torres D, Novaes RML (2009) Teste de procedência e progênies de Angico Vermelho (Anadenanthera peregrina (L.) Speg) visando o estabelecimento de pomar de sementes. MG.Biota 2: 4–19.Search in Google Scholar

Sant’Ana VZ, Freitas MLM, Moraes MLT, Zanata M, Zanatto ACSM, Moraes MA, Sebbenn AM (2013) Genetic parameters in open-pollinated progenies of Enterolobium contortisiliquum (Vell.) Morong in Luiz Antonio, SP, Brazil. Hoehnea 40: 515–520. DOI 10.1590/S2236-8906201300030001110.1590/S2236-89062013000300011Open DOISearch in Google Scholar

Sebbenn AM, Freitas MLM, Zanatto ACS, Moraes E, Moraes MA (2007) Ex situ conservation and seed orchard in germplasm bank of Balforoudendron riedelianum. Revista do Instituto Florestal 19: 101–112.Search in Google Scholar

Selvik H, Topaçoglu O (2015) Variation and inheritance pattern in cone and seed characteristics of Scots pine (Pinus sylvestris L.) for evaluation of genetic diversity. Journal of Environmental Biology 36: 1125–1130.Search in Google Scholar

Tambarussi EV, Boshier D, Vencovsky R, Freitas MLM, Sebbenn AM (2015) Paternity analysis reveals significant isolation and near neighbour pollen dispersal in small Cariniana legalis Mart. Kuntze populations in the Brazilian Atlantic Forest. Ecology and Evolution 5: 5588–5600. https://doi.org/10.1002/ece3.181610.1002/ece3.1816481311127069608Open DOISearch in Google Scholar

Tambarussi EV, Boshier D, Vencovsky R, Freitas MLM, Sebbenn AM (2017) Inbreeding depression from selfing and mating between relatives in the Neotropical tree Cariniana legalis Mart. Kuntze. Conservation Genetics 18: 225– 234. https://doi.org/10.1007/s10592-016-0896-410.1007/s10592-016-0896-4Open DOISearch in Google Scholar

Tambarusi EV, Sebbenn AM, Alves-Pereira A, Vencovsky R, Cambuim J, Silva AM, Moraes MA, Moraes MLT (2017) Dipteryx alata Vogel (Fabaceae) a neotropical tree with high levels of selfing: implication for conservation and breeding programs. Annals of Forest Research 60: 243-261. https://doi.org/10.15287/afr.2017.84210.15287/afr.2017.842Search in Google Scholar

Vencovsky R, Barriga P (1992) Biometric genetics in plant breeding. Ribeirão Preto: Revista Brasileira de Genética. Wright JW (1978) A simplified design for combined provenance and progeny testing. Silvae Genetica 27: 68–70.Search in Google Scholar

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