Biology Reference
In-Depth Information
Environments
. International Rice Research Institute, Los
Banos, Philippines.
Edmeades G.O., Bolanos J., Lafitte H.R., Rajaram S., Pfeiffer
W., Fischer R.A. 1989.Traditional approaches to breed-
ing for drought resistance in cereals. In: Baker F.W.G.
(Ed.),
Drought Resistance in Cereals
. CAB International,
Wallingford, Oxon, UK, pp. 27-52.
Edwards M., Johnson L. 1994. RFLPs for rapid recurrent
selection. In: Analysis of Molecular Marker Data.
Joint
Plant Breeding Symposia Series
. ASA, Madison, WI, pp.
33-40
FAO. 2011. FAOstat.
www.faostat.fao.org
Fukai S., Pantuwan G., Jongdee B., Cooper M. 1999. Screen-
ing for drought resistance in rainfed lowland rice.
Field
Crops Research
64:61-74.
Hospital F. 2003. Marker-assisted breeding. In: Newbury H.J.
(Ed.)
Plant Molecular Breeding
, Blackwell Publishing,
Oxford, pp. 30-59.
Jongdee B., Fukai S., Cooper M. 2002. Leaf water potential
and osmotic adjustment as physiological traits to improve
drought tolerance in rice.
Field Crops Research
76:153-
163.
Koebner R. 2003. MAS in cereals: Green for maize, amber
for rice, still red for wheat and barley. In:
Marker
Assisted Selection: A Fast Track to Increase Genetic
Gain in Plant and Animal Breeding
? Turin, Italy. 17-18
Oct. 2003. Available at
http://www.fao.org/biotech/docs/
Koebner.pdf (
verified 15 Feb. 2007). FAO, Rome.
Kumar A., Bernier J., Verulkar S., Lafitte H.R., Atlin G.N.
2008. Breeding for drought tolerance: Direct selection for
yield, response to selection and use of drought-tolerant
donors in upland and lowland-adapted populations.
Field
Crops Research
107:221-231.
Kumar R., Venuprasad R., Atlin G.N. 2007. Genetic analysis
of rainfed lowland rice drought tolerance under naturally-
occurring stress in eastern India: Heritability and QTL
effects.
Field Crops Research
103:42-52.
Lafitte H.R., Price A.H., Courtois B. 2004. Yield response
to water deficit in an upland rice mapping population:
Associations among traits and genetic markers.
Theoret-
ical and Applied Genetics
109:1237-1246.
Lanceras J.C., Pantuwan G., Jongdee B., Toojinda T. 2004.
Quantitative trait loci associated with drought tolerance
at reproductive stage in rice.
Plant Physiology
135:384-
399.
Lebowitz R.J., Soller M., Beckmann J.S. 1987. Trait-based
analyses for the detection of linkage between marker loci
and quantitative trait loci in crosses between inbred lines.
Theoretical and Applied Genetics
73:556-562.
Lenka S.K., Katiyar A., Chinnusamy V., Bansal K.C. 2011.
Comparative analysis of drought-responsive transcrip-
tome in Indica rice genotypes with contrasting drought
tolerance.
Plant Biotech Journal
9:315-327.
Lynch J.P. 2007. Roots of the second green revolution.
Aus-
tralian Journal of Botany
55:493-512.
Mandal N.P., Sinha P.K., Variar M., Shukla V.D., Perraju P.,
Mehta A., Pathak A.R., Dwivedi J.L., Rathi S.P.S., Bhan-
darkar S., Singh B.N., Singh D.N., Panda S., Mishra N.C.,
Singh Y.V., Pandya R., Singh M.K., Sanger R.B.S., Bhatt
J.C., Sharma R.K., Raman A., Kumar A., Atlin G.N.
2010. Implications of genotype x input interactions in
breeding superior genotypes for favorable and unfavor-
able rainfed upland environments.
Field Crops Research
118:135-144.
McWilliam J.R. 1989. The dimensions of drought. In:
Drought Resistance in Cereals
Baker F.W.G. (Ed.), CAB
International, Wallingford, Oxon, UK, pp. 1-11
Meuwissen T.H.E., Hayes B.J., Goddard M.E. 2001. Pre-
diction of total genetic value using genome-wide dense
marker maps.
Genetics
157:1819-1829.
Michelmore R.W., Paran I., Kesseli R.V. 1991. Identification
of markers linked to disease resistance genes by bulked
segregant analysis: A rapid method to detect markers in
specific genomic regions by using segregating popula-
tions.
Proceedings of the National Academy of Sciences
USA
88:9828-9832.
Navabi A., Mather D.E., Bernier J., Spaner D.M., Atlin G.N.
2009. QTL detection with bidirectional and unidirec-
tional selective genotyping: Marker-based and trait-based
analyses.
Theoretical and Applied Genetics
118:347-
358.
Neeraja C.N., Maghirang-Rodriguez R., Pamplona A., Heuer
S., Collard B.C.Y., Septiningsih E.M., Vergara G.,
Sanchez D., Xu K., Ismail A.M., Mackill D.J. 2007.
A marker-assisted backcross approach for develop-
ing submergence-tolerant rice cultivars.
Theoretical and
Applied Genetics
115:767-776.
Ouk M., Basnayake J., Tsubo M., Fukai S., Fischer K.S.,
Cooper M., Nesbitt H. 2006. Use of drought response
index for identification of drought tolerant genotypes
in
rainfed
lowland
rice.
Field
Crops
Research
99:
48-58.
Pandey S., Bhandari H. 2008. Drought: Economic costs and
research implications. In: Serraj R., Bennett J., Hardy
B. (Eds.)
Drought Frontiers in Rice: Crop Improvement
for Increased Rainfed Production
. Singapore: World Sci-
entific Publishing and Los Banos (Philippines): Interna-
tional Rice Research Institute.
Pantuwan G., Fukai S., Cooper M., Rajatasereekul S.,
O'Toole J.C. 2002. Yield response of rice (
Oryza sativa
L.) to drought under rainfed lowlands. 3. Plant factors
contributing to drought resistance.
Field Crops Research
73:181-200.
Peterson A.H. 2002. What has QTL mapping taught us about
plant domestication?
New Phytologist
154:591-608.
Price A.H., Cairns J.E., Horton P., Jones R.G.W., Grif-
fiths H. 2002. Linking drought-resistance mechanisms to
drought avoidance in upland rice during a QTL approach:
Progress and new opportunities to integrate stomatal and
mesophyll responses.
Journal of Experimental Botany
53:989-1004.
Price A., Courtois B. 1999. Mapping QTLs associated
with drought resistance in rice: Progress, problems, and
prospects.
Plant Growth Regulation
29:123-133.
Search WWH ::
Custom Search