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1. Environmental uniformity, site quality and tree competition interact to determine stand productivity of clonal Eucalyptus

Author:
Takahashi, Elizabete K.,   et al.   ; Resende, Rafael T.; Soares, Alvaro A.V.; Forrester, David I.; Marcatti, Gustavo E.; dos Santos, Alexandre R.; e Silva, Fabyano F.; Grattapaglia, Dario; Resende, Marcos Deon V.; Leite, Helio G.;     Show all 10 Authors
Source:
Forest ecology and management 2018 v.410 pp. 76-83
ISSN:
0378-1127
Subject:
Eucalyptus grandis; Eucalyptus urophylla; autocorrelation; economic productivity; genetic testing; genetic variation; genotype; genotype-environment interaction; hybrids; phenotype; plant genetics; plantations; site index; trees
Abstract:
... The major determinants of productivity in Eucalyptus plantations include the site productive capacity, local environmental uniformity, and the tree genetics, which impact their growth potential and competitiveness. While these factors have received a lot of attention individually, less attention has been given to the relative importance of these factors and the interactions between them. We examin ...
DOI:
10.1016/j.foreco.2017.12.038

2. Intra-genotypic competition of Eucalyptus clones generated by environmental heterogeneity can optimize productivity in forest stands

Author:
Takahashi, Elizabete K.,   et al.   ; Resende, Rafael T.; Marcatti, Gustavo E.; Pinto, Danielle S.; Cruz, Cosme Damião; Resende, Marcos Deon V.;     Show all 6 Authors
Source:
Forest ecology and management 2016 v.380 pp. 50-58
ISSN:
0378-1127
Subject:
Eucalyptus; altitude; autocorrelation; biomass; business enterprises; clones; forest plantations; forest stands; forests; genetic correlation; models; planting; silviculture; trees
Abstract:
... The growth structure of Eucalyptus plantations is the result of site environment, genetic material, and different types of interaction between neighboring plants. It is well known that sites that are more homogeneous result in greater forest productivity. However, additional factors inherent in the micro-environment or the quality of cuttings can lead to heterogeneous clonal biomass at the end of ...
DOI:
10.1016/j.foreco.2016.08.041

3. Genomic selection for growth and wood quality in Eucalyptus: capturing the missing heritability and accelerating breeding for complex traits in forest trees

Author:
Takahashi, Elizabete K.,   et al.   ; Resende, Marcos D. V.; Resende, Márcio F. R., Jr; Sansaloni, Carolina P.; Petroli, Cesar D.; Missiaggia, Alexandre A.; Aguiar, Aurelio M.; Abad, Jupiter M.; Rosado, Antonio M.; Faria, Danielle A.; Pappas, Georgios J., Jr.; Kilian, Andrzej; Grattapaglia, Dario;     Show all 13 Authors
Source:
The new phytologist 2012 v.194 no.1 pp. 116-128
ISSN:
0028-646X
Subject:
Eucalyptus; forest trees; genotype-environment interaction; heritability; linear models; linkage disequilibrium; population size; pulp; quantitative trait loci; quantitative traits; specific gravity; tree and stand measurements; tree breeding; wood; wood quality
Abstract:
... • Genomic selection (GS) is expected to cause a paradigm shift in tree breeding by improving its speed and efficiency. By fitting all the genome‐wide markers concurrently, GS can capture most of the ‘missing heritability’ of complex traits that quantitative trait locus (QTL) and association mapping classically fail to explain. Experimental support of GS is now required. • The effectiveness of GS w ...
DOI:
10.1111/j.1469-8137.2011.04038.x
PubMed:
22309312