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Aslam M., Qureshi R.H.,
and Ahmed N.,
1993, Mechanism
of
salt
tolerance
in
rice
(
Oryza
sativa
L.),
In:
Lieth
H.
and
Al
Massoum
A.
(eds),
Towards
the
rational
use
of
high
salinity
tolerant
plants, Kluwer Acad.
Pub.
Neitherlands,
135-138
Bonilla
P.,
Dvorak
J., Mackill
D.,
Deal
K.,
and
Gregorio
G.,
2002,
RFLP
and
SSLP
mapping
of
salinity
tolerance
genes
in
chromosome
1
of
rice
(
Oryza
sativa
L.),
using
recombinant
inbred
lines, Philippine Agric
Scientist,
85:
68-76
Cho
Y.G., McCouch
S.R.,
Kuiper M., Kang M.R.,
Pot
J., Groenen
J.T.M.,
and
Eun
M.Y.,
1998,
Integrated
map
of
AFLP,
SSLP
and
FRLP
markers
using
a
recombinant
inbred
population
of
rice
(
Oryza
sativa
L.),
Theor
Appl
Genet.,
97:
370-380
http://dx.doi.org/10.1007/
s001220050907
Claes
B.,
Dekeyser
R.,
Villarroel
R.,
Vandenbulcke
M.,
Bauw
G.,
Van
Montagu
M.,
and
Caplan
A.,
1990,
Characterization
of
a
rice
gene
showing
organ-specific
expression
in
response
to
salt
stress
and
drought,
Plant
Cell,
2:
19-27 http://dx.doi.org/10.1105/tpc.2.1.19
http://dx.doi.org/10.2307/3869047
Dellaporta
S.L.,
Wood
J.,
and
Hicks
J.B.,
1983,
A
plant
DNA
minipreparation:
Version
II.
Plant
Mol
Biol
Rep.,
4:
19-21
http://dx.doi.org/10.1007/BF02712670
Flowers
T.J.,
Koyama M.L.,
Flowers
S.A.,
Sudhakar
C.,
Singh
K.P.,
and
Yeo
A.R.,
2000,
QTL:
their
place
in
engineering
tolerance
of
rice
to
salinity,
J
Exp
Bot.,
51:
99-106 http://dx.doi.org/10.1093/jexbot/
51.342.99
Flowers
T.J.,
and
Yeo
AR.,
1981,
Variability
in
the
resistance
of
sodium
chloride
salinity within
rice
(
Oryza
sativa
L.),
varieties, New
Phytol.,
88:
363-373 http://dx.doi.org/10.1111/j.1469-8137.1981.tb01731.x
Flowers
T.J.,
Duque
E.,
Hajibagheri M.A., McGonigle
T.P.,
and
Yeo
AR.,
1985,
The
effect
of
salinity
on
leaf
ultrastructure
and
net
photosynthesis
of
2
varieties
of
rice-further
evidence
for
a
cellular-component
of
salt-resistance,
New
Phytol.,
100:
37-43
http://dx.doi.org/10.1111/j.1469-8137.1985.tb02755.x
Gong
J.M.,
Zheng
X.W.,
Du
B.X.,
Qian
Q.,
Chen
S.Y.,
Zhu
L.H.,
and
He
P.,
2001,
Comparative
study
of
QTLs
for
agronomic
traits
of
rice
(
Oryza
sativa
L.),
between
salt
stress
and
nonstress
environment,
Sci.
China
Ser.
C-Life
Sci.,
44:
73-82 http://dx.doi.org/10.1007/BF02882075
Gong
J.M.,
He
P.,
Qian
Q.A.,
Shen
L.S.,
Zhu
L.H.,
and
Chen
S.Y.,
1999,
Identification
of
salt-tolerance
QTL
in
rice
(
Oryza
sativa
L.),
Chin
Sci
Bull,
44:
68–71 http://dx.doi.org/10.1007/BF03182889
Gregorio
G.B.,
Senadhira
D., Mendoza
R.D., Manigbas
N.L.,
Roxas
J.P.,
and Guerta C.Q.,
2002,
Progress
in
breeding
for
salinity
tolerance
and
associated
abiotic
stresses
in
rice,
Field
Crops
Res.,
76:
91-101
http://dx.doi.org/10.1016/S0378-4290(02)00031-X
Gregorio
G.B.,
1997,
Tagging
salinity
tolerance
denes
in
rice
using
amplified
fragment
length
polymorphism AFLP, Univ. Philippines, Los
Baños,
Philippines
Gregorio
G.B.,
and
Senadhira
D.,
1993,
Genetic
analysis
of
salinity
tolerance
in
rice
(
Oryza
sativa
L.),
Theor.
Appl.
Genet.,
86:
333-338
Gregorio
G.B.,
Senadhira
D.,
and Mendoza
R.D.,
1997,
Screening
rice
for
salinity
tolerance.
IRRI
Disc
Paper
Series
22,
International
Rice
Research
Institute,
Manila,
Philippines
Haq T.U., Gorham
J., Akhtar
.J, Akhtar N.,
and Steele K.A.,
2010, Dynamic
quantitative
trait
loci
for
salt
stress
components
on
chromosome
1
of
rice,
Func.
Plant
Biol.,
37:
634-45
Heenan
D.P.,
Lewin
L.G.,
and
McCaffery
D.W.,
1988,
Salinity
tolerance
in
rice
varieties
at
different
growth
stages,
Aust.
J.
Exp.
Agric.,
28:
343-349 http://dx.doi.org/10.1071/EA9880343
Heu
M.H.,
and
Koh
H.J.,
1991,
Newly
bred
salt
tolerance
lines
in
rice,
Kor.
J.
Breed.,
23:
59-63
Hossain M.S.,
2004,
Effect
of
salinity
on
germination,
growth,
biochemical
attributes
and
yield
of
rice
mutants.
M.
S.Thesis
.
Bangladesh
Agricultural
University,
Mymensingh.
IRRI,
1996,
Standard
evaluation
system
for
rice,
4
th
Ed.
International
Rice
Research
Institute,
Los
Baños,
Philippines
Islam
M.R.,
Salam
M.A.,
Hassan
L.,
Collard
B.C.Y.,
Singh
R.K.,
and
Gregorio
G.B.,
2011,
QTL
mapping
for
salinity
tolerance
at
seedling
stage
in
rice,
Emir
J
Food
Agric.,
23:
137-146
Islam M.M., Mondol M.N.H.,
Emon
R.M.,
Begum
S.N.,
Bhowmik
S.K.,
and Hasan A.K.,
2007,
Screening
of
salt
tolerant
rice
genotypes
using
SSR
markers
at
seedling
stage.
Bangladesh
J.
Prog.
Sci.
Tech.,
5(1):
45-48
Jones M.P.,
1986,
Genetic
analysis
of
salt
tolerance
in
mangrove
swamp
rice.
In:
Rice
genetics,
Proc.
Intl
Rice
Genetics
Symposium,
27-31
May,
1985, Manila,
Philippines.
International
Rice
Research
Institute,
Manila,
Philippines,
pp.
411-422
Kaddah M.T.,
1963,
Salinity
effects
on
growth
of
rice
at
the
seedling
and
inflorescence
stage
of
development.
Soil
Sci.,
96:
105-111
http://dx.doi.org/10.1097/00010694-196308000-00006
Khan M.S.A., Hamid A.,
and Karim M.A.,
1997, Effect
of Sodium Chloride
on
germination
and
seedling
characters of
different
types
of
rice
(
Oryza
sativa
L.),
J.
Agron
and
Crop
Sci.,
179:
163-169 http://dx.doi.org/10.
1111/j.1439-037X.1997.tb00511.x http://dx.doi.org/10.1111/j.1439-
037X.1997.tb00512.x
Khatun
S.,
and
Flowers
T.J.,
1995,
Effects
of
salinity
on
seed
set
in
rice,
Plant
Cell
Environ,
18:
61-67 http://dx.doi.org/10.1111/j.1365-3040.
1995.tb00544.x
Konishi
S.,
Izawa
T.,
Yang
L.S.,
Ebana
K.,
Lin
Y.S.,
Ebana
K.,
Fukuta
Y.,
Sasaki
T.,
and
Yano
M.,
2006,
An
SNP
caused
loss
of
seed
shattering
during
rice
domestication.
Science,
312:
1392-1396
http://dx.doi.org/10.1126/science.1126410
Koyama M.L.,
Levesley A., Koebner
R.M.D.,
Flowers
T.J.,
and Yeo A.R.,
2001,
Quantitative
trait
loci
for
component
physiological
traits
determining
salt
tolerance
in
rice,
Plant
Physiol.,
125:
406-422
http://dx.doi.org/10.1104/pp.125.1.406
Lang
N.T.,
Yanagihara
S.S.,
and
Buu
B.C.,
2001,
QTL
analysis
of
salt
tolerance
in
rice
(
Oryza
sativa
L.), SABRAO
J Breed Genet.,
33:
11-20
Lee
S.Y.,
Ahn
J.H.,
Cha
Y.S.,
Yun
D.W.,
Lee
M.C.,
Ko
J.C.,
Lee
K.S.,
and
Eun M.Y.,
2007, Mapping
QTLs
related
to
salinity
tolerance
of
rice
at
the
young
seedling
stage,
Plant
Breed.,
126:
43–46
http://dx.doi.org/10.1111/j.1439-0523.2007.01265.x
Lin
H.X.,
Zhu M.Z.,
Yano M.,
Gao
J.P.,
Liang
Z.W.,
Su W.A.,
Hu
X.H.,
Ren
Z.H.,
and
Chao
D.Y.,
2004,
QTLs
for
Na+
and
K+
uptake
of
the
shoots
and
roots
controlling
rice
salt
tolerance,
Theor. App Genet.,
108:
253–260 http://dx.doi.org/10.1007/s00122-003-1421-y
Lin
S.Y.,
Sasaki
T.,
and
Yano
M.,
1998,
Mapping
quantitative
trait
loci
controlling
seed
dormancy
and
heading
date
in
rice
(
Oryza
sativa
L.),
using
backcross
inbred
lines,
Theor.
Appl.
Genet.,
96:
997-1003
http://dx.doi.org/10.1007/s001220050831
Lutts
S.,
Kinet
J.M.,
and
Bouhamont
J.,
1995,
Changes
in
plant
response
to
NaCI
during
development
of
rice
(
Oryza
sativa
L.),
varieties
differing
in
salinity
resistance,
J
Exp
Bot.,
46:
1843-1852
http://dx.doi.org/10.1093/jxb/46.12.1843
Maas E.V.,
and Hoffiman G.J.,
1997, Crop
salt
tolerance:
current
assessment,
J
Irrig
Drain,
115-134
Makihara
D., Makoto
T., Miho M.,
Yoshihiko
H.,
and
Toshiro
K.,
1999,
Effect
of
salinity
on
the
growth
and
development
of
rice
(
Oryza
sativa
L.),
varieties,
Japn
J
Trop
Agric.,
43:
285-294
Maiti
R.K.,
Vidyasagar
P.,
and
Banerjee
P.P.,
2006,
Salinity
tolerance
in
rice
(
Oryza
sativa
L.),
hybrids
and
their
parents
at
emergence
and
seedling
stage,
Crop
Res.
Hisar.,
31(3):
427-433
Masood
M.S.,
Seiji
Y.,
Shinwari
Z.K.,
and
Anwar
R.,
2004,
Mapping
quantitative
trait
loci
QTLs,
for
salt
tolerance
in
rice
(
Oryza
sativa
L.),
using
RLFPs,
Pak.
J.
Bot.,
36(4):
825-834
McCouch
S.,
Teytelman
L.,
and
Xu
Y.,
2002,
Development
of
2,240
new
SSR
markers
for
rice
(
Oryza
sativa
L.),
DNA
Res.,
9:
199-207
http://dx.doi.org/10.1093/dnares/9.6.199
McCouch S.R., Cho Y.G.,
and Yano M.,
1997, Report
on QTL
nomenclature,
Rice
Genet
Newsltr
14:
11
McCouch
S.R.,
Kochert
G.,
Yu
Z.H.,
Wang
Z.Y.,
Khush
G.S.,
Coffman
W.R.,
and
Tanksley
S.D.,
1988,
Molecular
mapping
of
rice
chromosomes,
Theor.
Appl.
Genet.,
76:
815-829 http://dx.doi.org/10.
1007/BF00273666
McNally K.L.,
Childs K.L.,
Bohnert
R., Davidson
R.M.,
Zhaoe K., Ulata
V.J.,
Zeller
G.,
Clark
R.M.,
Hoen
D.R.,
Bureau
T.E.,
Stokowski
R.,