Agriculture Reference
In-Depth Information
Nesbitt, M., and D. Samuel. 1998. Wheat domestication:
Archaeobotanical evidence. Science 279:1433.
Nevo, E. 1983. Genetic resources of wild emmer wheat:
Structure, evolution and application in breeding. p. 421-
431.
In
S. Sakamoto (ed.) Proc. Int. Wheat Genet. Symp.,
6th, Kyoto, Japan. 28 Nov.-3 Dec. 1983. Plant Germ-
Plasm Inst., Fac. Agric., Kyoto Univ., Kyoto, Japan.
Nevo, E. 1986. Genetic resources of wild cereals and crop
improvement: Israel, a natural laboratory. Isr. J. Bot.
35:255-278.
Nevo, E. 1989. Genetic resources of wild emmer wheat revis-
ited: Genetic evolution, conservation and utilization. p.
121-126.
In
T.E. Miller and R.M.D. Koebner (ed.) Proc.
Int. Wheat Genet. Symp., 7th, Cambridge, UK. 13-19
July 1988. Inst. Plant Science Res., Cambridge Labora-
tory, Cambridge.
Nevo, E. 1992. Origin, evolution, population genetics and
resources for breeding of wild barley, Hordeum sponta-
neum, in the Fertile Crescent. p. 19-43.
In
P. Shewry (ed.)
Barley: Genetics, molecular biology and biotechnology.
CAB Int., Wallingford, UK.
Nevo, E. 1994. Evolutionary signifi cance of genetic diversity
in nature: Environmental stress, pattern and theory. p.
267-296.
In
C.L. Markert, J.G. Scandalios, H.A. Lim, and
O.L. Serov (ed.) Isozymes: Organization and roles in evo-
lution, genetics and physiology. Int. Congr. on Isozymes,
7th, Novosibirsk, Russia. 6-13 Sept. 1992. World Scien-
tifi c, Hackensack, NJ.
Nevo, E. 1995. Genetic resources of wild emmer,
Triticum
dicoccoides
for wheat improvement: News and views. p.
79-87.
In
Proc. Int. Wheat Genet. Symp., 8th, Beijing,
China. 20-25 July, 1993. China Agricultural Scientech
Press, Beijing.
Nevo, E. 1998. Genetic diversity in wild cereals: Regional and
local studies and their bearing on conservation ex-situ and
in-situ. Genet. Resour. Crop Evol. 45:355-370.
Nevo, E. 2001. Genetic resources of wild emmer,
Triticum
dicoccoides
, for wheat improvement in the third millen-
nium. Isr. J. Plant Sci. 49:77-91.
Nevo, E. 2006. Genome evolution of wild cereal diversity and
prospects for crop improvement. Plant Genet. Resour.
4:36-46.
Nevo, E., and A. Beiles. 1989. Genetic diversity of wild
emmer wheat in Israel and Turkey: Structure, evolution
and application in breeding. Theor. Appl. Genet.
77:421-455.
Nevo, E., A. Beiles, A.B. Korol, Y.I. Ronin, T. Pavliˇek, and
W.D. Hamilton. 2000. Extraordinary multilocus genetic
organization in mole crickets, gryllotalpidae. Evolution
54:586-605.
Nevo, E., A. Beiles, and T. Krugman. 1988a. Natural selec-
tion of allozyme polymorphisms: A microgeographic cli-
matic differentiation in wild emmer wheat,
Triticum
dicoccoides
. Theor. Appl. Genet. 75:529-538.
Nevo, E., A. Beiles, and T. Krugman. 1988b. Natural selec-
tion of allozyme polymorphisms: A microgeographic dif-
ferentiation by edaphic, topographical and temporal factors
in wild emmer wheat
Triticum dicoccoides
. Theor. Appl.
Genet. 76:737-752.
Nevo, E., E.M. Golenberg, A. Beiles, A.H.D. Brown, and D.
Zohary. 1982. Genetic diversity and environmental asso-
ciations of wild wheat,
Triticum dicoccoides
, in Israel. Theor.
Appl. Genet. 62:241-254.
Nevo, E., A. Grama, A. Beiles, and E.M. Golenberg.
1986. Resources of high-protein genotypes in wild
wheat,
Triticum dicoccoides
in Israel: Predictive method
by ecology and allozyme markers. Genetica 68:215-
227.
Nevo, E., A.B. Korol, A. Beiles, and T. Fahima. 2002. Evolu-
tion of wild emmer and wheat improvement. p. 364.
In
E.
Nevo, A.B. Korol, A. Beiles, and T. Fahima (ed.) Popula-
tion genetics, genetic resources, and genome organization
of wheat's progenitor,
Triticum dicoccoides
. Springer-
Verlag, Berlin.
Nishikawa, K., S. Mizuno, and Y. Furuta. 1994. Identifi ca-
tion of chromosomes involved in translocations in wild
emmer. Jpn. J. Genet. 69:371-376.
Ohtsuka, I. 1998. Origin of the central European spelt wheat.
p. 303-305.
In
A.E. Slinkard (ed.) Proc. Int. Wheat Genet.
Symp., 9th, Saskatoon, SK. 2-7 Aug. 1998. University
Extension Press, Saskatoon, SK, Canada.
Okamoto, M. 1962. Identifi cation of the chromosomes of
common wheat belonging to the A and B genomes. Can. J.
Genet. Cytol. 4:31-37.
Ozkan, H., A.A. Levy, and M. Feldman. 2001. Allopoly-
ploidy-induced rapid genome evolution in the wheat
(
Aegilops-Triticum
) group. Plant Cell 13:1735-1747.
Peng, J.H., T. Fahima, M.S. Röder, Q.Y. Huang, A. Dahan,
Y.C. Li, A. Grama, and E. Nevo. 2000a. High-density
molecular map of chromosome region harboring stripe-
rust resistance genes YrH52 and Yr15 derived from
wild emmer wheat,
Triticum dicoccoides
. Genetica
109:199-210.
Peng, J.H., T. Fahima, M.S. Röder, Y.C. Li, A. Grama, and
E. Nevo. 2000b. Microsatellite high-density mapping of
the stripe rust resistance gene YrH52 region on chromo-
some 1B and evaluation of its marker-assisted selection in
the F2 generation in wild emmer wheat. New Phytol.
146:141-154.
Peng, J.H., A.B. Korol, T. Fahima, M.S. Röder, Y.I. Ronin,
Y.C. Li, and E. Nevo. 2000c. Molecular genetic maps in
wild emmer wheat,
Triticum dicoccoides
: Genome-wide
coverage, massive negative interference, and putative
quasi-linkage. Genome Res. 10:1509-1531.
Penton, E.H., and T.J. Crease. 2004. Evolution of the trans-
posable element Pokey in the ribosomal DNA of species in
the subgenus
Daphnia
(Crustacea: Cladocera). Mol. Biol.
Evol. 21:1727-1739.
Pestsova, E.G., N.P. Goncharov, and E.A. Salina. 1998.
Elimination of a tandem repeat of telomeric heterochroma-
tin during the evolution of wheat. Theor. Appl. Genet.
97:1380-1386.
Plucknett, D.L., N.J.H. Smith, J.T. Wiliams, and N.M.
Anishette. 1983. Crop germplasm conservation and devel-
oping countries. Science 220:163-169.
Plucknett, D.L., N.J.H. Smith, J.T. Wiliams, and N.M.
Anishette. 1987. Gene banks and the world's food.
Princeton University Press, Princeton, NJ.
