Biology Reference
In-Depth Information
Elshire RJ, Glaubitz JC, Sun Q, Poland JA, Kawamoto
K, Buckler ES, Mitchell SE (2011) A robust, sim-
ple genotyping-by-sequencing (GBS) approach for high
diversity species.
PLoS ONE
. 6(5): e19379
http://dx.
FAOSTAT, 2012.
http://faostat.fao.org/default.aspx
Flint-Garcia SA, Thornsberry JM, Buckler IV ES, 2003.
Structure of linkage disequilibrium in plant.
Annual
Review of Plant Biology
54, 357-374.
http://dx.doi.org/
Garoma T, Ben-Khaled M, Beyene A, 2011. Comparative
resource analyses for ethanol produced from corn and
sugarcane in different climatic zones.
International Jour-
nal of Energy Research
36, 1065-1076.
http://dx.doi.org/
Glaszmann J, Dufour P, Grivet L, D'Hont A, Deu M,
Paulet F, Hamon P, 1997. Comparative genome analysis
between several tropical grasses.
Euphytica
96, 13-21.
Glynn NC, Nipper RW, Comstock JC, 2011 Application of
RAD LongRead sequencing for SNP discovery in sugar-
cane,
Plant Genome Conference Proceedings
, San Diego,
p. 184.
Gravois K, Milligan S, 1992. Genetic relationships between
fiber and sugarcane yield components.
Crop Sci-
ence
32, 62-67.
http://dx.doi.org/10.2135/cropsci1992.
0011183
×
003200010014x
Grivet, L, Arruda P. 2002. Sugarcane genomics: Depict-
ing the complex genome of an important tropical crop.
Current Opinion in Plant Biology
5(2):122-127.
Grivet L, d'Hont A, Roques D, Feldmann P, Lanaud C, Glasz-
mann JC, 1996. RFLP mapping in cultivated sugarcane
(
Saccharum
spp.): Genome organization in a highly poly-
ploid and aneuploid interspecific hybrid.
Genetics
142,
987-1000.
Grivet L, Daniels C, Glaszmann JC, D'Hont A, 2004. A
review of recent molecular genetics evidence for sugar-
cane evolution and domestication.
Ethnobotany Research
& Applications
2, 9-17.
www.ethnobotanyjournal.
Grivet L, Glaszmann J, D'Hont A, 2006. Molecular evi-
dence of sugarcane evolution and domestication, in:
Motley T, Zerega N, Cross H (eds),
Darwin's harvest:
New approaches to the origins, evolution, and conser-
vation of crops
. New York: Columbia University Press,
pp. 49-66.
Grivet L, Glaszmann JC, Vincentz M, Da Silva F, Arruda P,
2003. ESTs as a source for sequence polymorphism dis-
covery in sugarcane: example of the
Adh
genes.
Theoreti-
cal and Applied Genetics
106, 190-197.
http://dx.doi.org/
Hammer G, Chapman S, Van Oosterom E, Podlich D, 2004.
Trait physiology and crop modelling to link phenotypic
complexity to underlying genetic systems.
Proceedings
of the 4th International Crop Science Congress “New
directions for a diverse planet” 26 Sep - 1 Oct 2004,
Brisbane, Australia
, pp. 1-15.
Hammer GL, Kropff MJ, Sinclair TR, Porter JR, 2002. Future
contributions of crop modelling—from heuristics and
supporting decision making to understanding genetic reg-
ulation and aiding crop improvement.
European Jour-
nal of Agronomy
18, 15-31.
http://dx.doi.org/10.1016/
Hardy O, Vekemans X, 2002. SPAGEDi: A versatile com-
puter program to analyse spatial genetic structure at
the individual or population levels.
Molecular Ecol-
ogy Notes
2, 618-620.
http://dx.doi.org/10.1046/j.1471-
8286.2002.00305.x
Heffner EL, Lorenz AJ, Jannink JL, Sorrells ME, 2010.
Plant breeding with genomic selection: Gain per unit time
and cost.
Crop Science
50, 1681-1690.
http://dx.doi.org/
Heffner EL, Sorrells ME, Jannink JL, 2009. Genomic selec-
tion for crop improvement.
Crop Science
49, 1-12.
http://
Heller-Uszynska K, Uszynski G, Huttner E, Evers M, Carlig
J, Caig V, Aitken K, Jackson P, Piperidis G, Cox
M, Gilmour R, D'Hont A, Butterfield M, Glaszmann
J-C, Kilian A, 2010. Diversity Arrays Technology effec-
tively reveals DNA polymorphism in a large and com-
plex genome of sugarcane.
Molecular Breeding
1, 37-55.
Hoarau JY, Offmann B, D'Hont A, Risterucci AM, Roques
D, Glaszmann JC, Grivet L, 2001. Genetic dissec-
tion of a modern sugarcane cultivar (
Saccharum
spp.).
I. Genome mapping with AFLP markers.
Theoreti-
cal and Applied Genetics
103, 84-97.
http://dx.doi.org/
10.1007/s001220000390
Hoarau JY, Grivet L, Offmann B, Raboin LM, Diorflar
JP, Payet J, Hellmann M, D'Hont AD, Glaszmann
JC, 2002. Genetic dissection of a modern sugarcane
cultivar (
Saccharum
spp.).II. Detection of QTLs for
yield components.
Theoretical and Applied Genetics
105, 1027-1037.
http://dx.doi.org/10.1007/s00122-002-
1047-5
Hogarth DM, 1977. Quantitative inheritance studies in sug-
arcane. III. The effect of competition and violation of
genetic assumptions on estimation of genetic variance
components.
Australian Journal of Agriculture Research
28, 257-268.
Jackson P, 1994. Genetic relationships between attributes
in sugarcane clones closely related to
Saccharum
spontaneum
.
Euphytica
79, 101-108.
http://dx.doi.org/
Jackson P, Hogarth D, 1992. Genotype x environment
interactions in sugarcane, 1. Patterns of response
across sites and crop-years in north Queensland.
Aus-
tralian Journal of Agricultural Research
43, 1447-1459.
Jackson PA, 2005. Breeding for improved sugar con-
tent in sugarcane.
Field Crops Research
92, 277-290.
Jannink JL, Lorenz AJ, Iwata H, 2010. Genomic selec-
tion
in
plant
breeding:
From
theory
to
practice.
Search WWH ::
Custom Search