Genetic diversity in wild cereals: regional and local studies and their bearing on conservation ex situ and in situ
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[1] M. J. Lawrence,et al. Plant Population Genetics , 2020, Plant Genetic Conservation.
[2] R. Henry,et al. Molecular analysis of the DNA polymorphism of wild barley (Hordeum spontaneum) germplasm using the polymerase chain reaction , 1995, Genetic Resources and Crop Evolution.
[3] E. Nevo,et al. Resources of high-protein genotypes in wild wheat,Triticum dicoccoides in Israel: Predictive method by ecology and allozyme markers , 1986, Genetica.
[4] E. Nevo,et al. Patterns of resistance of Israeli wild emmer wheat to pathogens I. Predictive method by ecology and allozyme genotypes for powdery mildew and leaf rust , 1985, Genetica.
[5] E. Nevo,et al. Genetic diversity and environmental associations of wild barley,Hordeum spontaneum, in Turkey , 1979, Genetica.
[6] Z. Gerechter-Amitai,et al. A valuable source of yellow rust resistance in Israeli populations of wild emmer,Triticum dicoccoidesKoern. , 1970, Euphytica.
[7] E. Nevo,et al. Ecological correlates of RAPD DNA diversity of wild barley, Hordeum spontaneum, in the Fertile Crescent , 1998, Genetic Resources and Crop Evolution.
[8] E. Nevo,et al. Genetic diversity in wild barley (Hordeum spontaneum C. Koch) in the Near East: a molecular analysis using Random Amplified Polymorphic DNA (RAPD) markers , 1997, Genetic Resources and Crop Evolution.
[9] D. C. Gordon,et al. Shoot δ15N correlates with genotype and salt stress in barley , 1997, Planta.
[10] E. Nevo,et al. Chromosome translocations in wild populations of tetraploid emmer wheat in Israel and Turkey , 1995, Theoretical and Applied Genetics.
[11] E. Nevo,et al. Wheat storage proteins: glutenin diversity in wild emmer, Triticum dicoccoides, in Israel and Turkey. 2. DNA diversity detected by PCR , 1995, Theoretical and Applied Genetics.
[12] E. Nevo,et al. Wheat storage proteins: glutenin DNA diversity in wild emmer wheat, Triticum dicoccoids, in Israel and Turkey. 3. Environmental correlates and allozymic associations , 1995, Theoretical and Applied Genetics.
[13] E. Nevo,et al. Grain isozyme and ribosomal DNA variability in Hordeum spontaneum populations from Israel , 1992, Theoretical and Applied Genetics.
[14] E. Nevo,et al. Herbicide response polymorphisms in wild emmer wheat: ecological and isozyme correlations , 1992, Theoretical and Applied Genetics.
[15] E. Nevo,et al. Variation in response to infection with Erysiphe graminis hordei and Puccinia hordei in some wild barley populations in a centre of diversity , 1991, Euphytica.
[16] E. Nevo,et al. Photosynthetic performance in wild emmer wheat, Triticum dicoccoides: ecological and genetic predictability , 1991, Theoretical and Applied Genetics.
[17] E. Nevo,et al. Resistance of wild emmer wheat to stem rust: Ecological, pathological and allozyme associations , 1991, Euphytica.
[18] E. Nevo,et al. Genetic diversity of photosynthetic characters in native populations of Triticum dicoccoides , 1990, Photosynthesis Research.
[19] E. Nevo,et al. Reactions of Hordeum spontaneum to infection with two cultures of Puccinia hordei from Israel and United States , 1990, Euphytica.
[20] A. Jaradat. Ecotypes and genetic divergence among sympatrically distributed populations of Hordeum vulgare and Hordeum spontaneum from the xeric region of Jordan , 1989, Theoretical and Applied Genetics.
[21] Z. Gerechter-Amitai,et al. Yr15 — a new gene for resistance to Puccinia striiformis in Triticum dicoccoides sel. G-25 , 1989, Euphytica.
[22] E. Nevo,et al. Genetic diversity of wild emmer wheat in Israel and Turkey , 1989, Theoretical and Applied Genetics.
[23] E. Nevo,et al. Natural selection of allozyme polymorphisms: a microgeographical differentiation by edaphic, topographical, and temporal factors in wild emmer wheat (Triticum dicoccoides) , 1988, Theoretical and Applied Genetics.
[24] E. Nevo,et al. Wheat storage proteins: diversity of HMW glutenin subunits in wild emmer from Israel , 1987, Theoretical and Applied Genetics.
[25] E. Nevo,et al. Genetic diversity and environmental associations of wild barley,Hordeum spontaneum (Poaceae), in Iran , 1986, Plant Systematics and Evolution.
[26] E. Nevo,et al. Genetic resources of wild cereals in Israel and vicinity. II. Phenotypic variation within and between populations of wild barley, Hordeum spontaneum , 1984, Euphytica.
[27] E. Nevo,et al. Genetic resources of wild cereals in Israel and vicinity. I. Phenotypic variation within and between populations of wild wheat, Triticum dicoccoides , 1984, Euphytica.
[28] E. Nevo,et al. Resistance of Triticum dicoccoides to infection with Erysiphe graminis tritici , 1984, Euphytica.
[29] E. Nevo,et al. Genetic diversity and environmental associations of wild wheat, Triticum dicoccoides, in Israel , 1982, Theoretical and Applied Genetics.
[30] E. Nevo,et al. Microgeographic edaphic differentiation in allozyme polymorphisms of wild barley (Hordeum spontaneum, Poaceae) , 1981, Plant Systematics and Evolution.
[31] E. Nevo,et al. Resistance of wild wheat to stripe rust: Predictive method by ecology and allozyme genotypes , 2004, Plant Systematics and Evolution.
[32] E. Nevo,et al. Natural selection of allozyme polymorphisms: a microgeographic climatic differentiation in wild emmer wheat (Triticum dicoccoides) , 2004, Theoretical and Applied Genetics.
[33] E. Nevo,et al. Microgeographic edaphic differentiation in hordein polymorphisms of wild barley , 2004, Theoretical and Applied Genetics.
[34] E. Nevo,et al. Associations between isozyme phenotypes and environment in the slender wild oat (Avena barbata) in Israel , 2004, Theoretical and Applied Genetics.
[35] T. Jukes,et al. The neutral theory of molecular evolution. , 2000, Genetics.
[36] J. Hawkes,et al. Complementary conservation strategies , 2000 .
[37] S. Brush,et al. Locally based crop plant conservation , 2000 .
[38] Luigi Guarino,et al. Management and monitoring , 2000 .
[39] J. T. Williams. Technical and political factors constraining reserve placements , 2000 .
[40] M. Feldman,et al. The Ammiad experiment , 2000 .
[41] J. Hawkes,et al. Selection of target taxa , 2000 .
[42] S. Wratten,et al. Integrating plant and insect conservation , 2000 .
[43] J. Hawkes,et al. Genetic conservation information management , 2000 .
[44] G. Prance. The conservation of botanical diversity. , 2000 .
[45] B. Ford-Lloyd,et al. Estimation of genetic diversity , 2000 .
[46] M. Gillman. Plant population ecology , 2000 .
[47] Eviatar Nevo,et al. Molecular evolution and ecological stress at global, regional and local scales: The Israeli perspective , 1998 .
[48] E. Nevo,et al. Microsatellite DNA polymorphism divergence in Triticum dicoccoides accessions highly resistant to yellow rust , 1998, Theoretical and Applied Genetics.
[49] Nigel Maxted,et al. Plant Genetic Conservation , 2020, Springer Netherlands.
[50] E. Nevo,et al. Population genetic response to microsite ecological stress in wild barley, Hordeum spontaneum , 1997 .
[51] E. Nevo. Evolution in action across phylogeny caused by microclimatic stresses at "Evolution Canyon". , 1997, Theoretical population biology.
[52] A. Korol,et al. Identification of molecular markers linked to the Yr15 stripe rust resistance gene of wheat originated in wild emmer wheat, Triticum dicoccoides , 1997, Theoretical and Applied Genetics.
[53] D. C. Gordon,et al. Correlating molecular markers with physiological expression in Hordeum, a developing approach using stable isotopes , 1997 .
[54] S. Tanksley,et al. Seed banks and molecular maps: unlocking genetic potential from the wild. , 1997, Science.
[55] E. Nevo,et al. AFLP variation in wild barley (Hordeum spontaneum C. Koch) with reference to salt tolerance and associated ecogeography. , 1997, Genome.
[56] A. Jaradat. WILD EMMER WHEAT IN JORDAN: III. A CORE COLLECTION , 1997 .
[57] A. Jaradat. WILD EMMER WHEAT IN JORDAN: I. ECOTYPES AND PHENOTYPIC VARIATION , 1997 .
[58] A. Jaradat. WILD EMMER WHEAT IN JORDAN: II. GENETIC DISTANCES BETWEEN AND WITHIN POPULATIONS , 1997 .
[59] E. Nevo,et al. Natural selection causes microscale allozyme diversity in wild barley and a lichen at ‘Evolution Canyon’, Mt. Carmel, Israel , 1997, Heredity.
[60] E. Nevo,et al. Selection versus random drift: long–term polymorphism persistence in small populations (evidence and modelling) , 1997 .
[61] Y. Kashi,et al. Simple sequence repeats as a source of quantitative genetic variation. , 1997, Trends in genetics : TIG.
[62] Nigel Maxted,et al. Plant Genetic Conservation: The in situ approach , 1997 .
[63] Yechezkel Kashi,et al. Evolutionary tuning knobs , 1997 .
[64] S. Tanksley,et al. High-resolution mapping and isolation of a yeast artificial chromosome contig containing fw2.2: a major fruit weight quantitative trait locus in tomato. , 1996, Proceedings of the National Academy of Sciences of the United States of America.
[65] E. Lander. The New Genomics: Global Views of Biology , 1996, Science.
[66] Eviatar Nevo,et al. Asian, African and European biota meet at ‘Evolution Canyon’ Israel: local tests of global biodiversity and genetic diversity patterns , 1995, Proceedings of the Royal Society of London. Series B: Biological Sciences.
[67] J. Burdon,et al. The Conservation of Plant Biodiversity , 1995 .
[68] D L Hawksworth,et al. Biodiversity: measurement and estimation. , 1995, Philosophical transactions of the Royal Society of London. Series B, Biological sciences.
[69] E. Nevo,et al. Chromosome 4 controls potential water use efficiency (δ13C) in barley , 1994 .
[70] W. Powell,et al. Variation in the leaf sodium content of the Hordeum vulgare (barley) cultivar Maythorpe and its derived mutant cv. Golden Promise , 1994, Heredity.
[71] M. Maroof,et al. Extraordinarily polymorphic microsatellite DNA in barley: species diversity, chromosomal locations, and population dynamics. , 1994, Proceedings of the National Academy of Sciences of the United States of America.
[72] Michael Taylor. Diversity of life , 1994, Nature.
[73] E. Nevo,et al. Edaphic natural selection of allozyme polymorphisms in Aegilops peregrina at a Galilee microsite in Israel , 1994, Heredity.
[74] A. Brown,et al. Optimal sampling strategies for core collections of plant genetic resources , 1994 .
[75] J. Mitton. MOLECULAR APPROACHES TO POPULATION BIOLOGY , 1994 .
[76] A. Korol,et al. Recombination Variability and Evolution: Algorithms of estimation and population-genetic models , 1994 .
[77] S. Tanksley,et al. Comparative linkage maps of the rice and maize genomes. , 1993, Proceedings of the National Academy of Sciences of the United States of America.
[78] J. Holden,et al. Genes, Crops and the Environment , 1993 .
[79] W. Powell,et al. Detection and analysis of genetic variation in Hordeum spontaneum populations from Israel using RAPD markers , 1993, Molecular ecology.
[80] E. Nevo,et al. Genetic Resources for Salt Tolerance in the Wild Progenitors of Wheat (Triticum dicoccoides) and Barley (Hordeum spontaneum) in Israel , 1993 .
[81] A. Paterson,et al. Genome mapping in plants , 1993 .
[82] E. Nevo,et al. Variation for 22Na Uptake in Wild Emmer Wheat, Triticum dicoccoides in Israel: Salt Tolerance Resources for Wheat Improvement , 1992 .
[83] E. Nevo,et al. Amino-acid resources in the wild progenitor of wheats, Triticum dicoccoides, in Israel―polymorphisms and predictability by ecology and isozymes , 1992 .
[84] P. Shewry,et al. Origin, evolution, population genetics and resources for breeding of wild barley, Hordeum spontaneum, in the Fertile Crescent. , 1992 .
[85] O. T. Sandlund,et al. Conservation of biodiversity for sustainable development , 1992 .
[86] Peggy L. Fiedler,et al. Conservation biology : the theory and practice of nature conservation, preservation, and management , 1992 .
[87] P. Ehrlich,et al. Biodiversity Studies: Science and Policy , 1991, Science.
[88] E. Nevo,et al. Genetic diversity and ecological heterogeneity in amphibian evolution , 1991 .
[89] I. Olivieri. Plant population genetics, breeding, and genetic resources , 1991 .
[90] A. Brown,et al. The Use of Plant Genetic Resources. , 1991 .
[91] E. Nevo,et al. Herbicide response polymorphism in wild populations of emmer wheat , 1991, Heredity.
[92] A. Dinoor,et al. Fungal diseases of wild tetraploid wheat in a natural stand in northern Israel : Population dynamics of the wheat progenitor, Triticum turgidum var. dicoccoides, in a natural habitat in Eastern Galilee , 1991 .
[93] M. Feldman,et al. Evaluation of the wild-wheat study at Ammiad : Population dynamics of the wheat progenitor, Triticum turgidum var. dicoccoides, in a natural habitat in Eastern Galilee , 1991 .
[94] I. Noy‐Meir,et al. The wild-wheat field laboratory at Ammiad : Population dynamics of the wheat progenitor, Triticum turgidum var. dicoccoides, in a natural habitat in Eastern Galilee , 1991 .
[95] M. Agami,et al. Floristic and ecological differentiation of habitats within a wild wheat population at Ammiad : Population dynamics of the wheat progenitor, Triticum turgidum var. dicoccoides, in a natural habitat in Eastern Galilee , 1991 .
[96] S. Ezrati,et al. Patterns of phenotypic variation in wild tetraploid wheat at Ammiad : Population dynamics of the wheat progenitor, Triticum turgidum var. dicoccoides, in a natural habitat in Eastern Galilee , 1991 .
[97] G. Galili,et al. Polymorphism of high-molecular-weight glutenins in wild tetraploid wheat: spatial and temporal variation in a native site : Population dynamics of the wheat progenitor, Triticum turgidum var. dicoccoides, in a natural habitat in Eastern Galilee , 1991 .
[98] M. Agami,et al. Changes in the population density of wild emmer wheat (Triticum turgidum var. dicoccoides) in a Mediterranean grassland : Population dynamics of the wheat progenitor, Triticum turgidum var. dicoccoides, in a natural habitat in Eastern Galilee , 1991 .
[99] E. Nevo,et al. Natural selection of allozyme polymorphisms: micro-geographical spatial and temporal ecological differentiation in wild emmer wheat : Population dynamics of the wheat progenitor, Triticum turgidum var. dicoccoides, in a natural habitat in Eastern Galilee , 1991 .
[100] E. Nevo,et al. THE GENETICAL ANALYSIS AND EXPLOITATION OF DIFFERENTIAL RESPONSES TO HERBICIDES IN CROP SPECIES , 1991 .
[101] E. Nevo. Molecular evolutionary genetics of isozymes: pattern, theory, and application. , 1990, Progress in clinical and biological research.
[102] A. Jaradat,et al. Morphological variation in Triticum dicoccoides from Jordan. , 1990 .
[103] E. Nevo,et al. Genetic diversity and its ecological correlates in nature: comparisons between subterranean, fossorial, and aboveground small mammals. , 1990, Progress in clinical and biological research.
[104] Edward O. Wilson,et al. Threats to Biodiversity. , 1989 .
[105] A. Brown. The Use of Plant Genetic Resources , 1989 .
[106] Eviatar Nevo,et al. Genetic parallelism of protein polymorphism in nature: ecological test of the neutral theory of molecular evolution , 1988 .
[107] E. Nevo,et al. Genetic diversity and environmental associations of wild emmer wheat, in Turkey , 1988, Heredity.
[108] Maria Hopf,et al. Domestication of plants in the old world , 1988 .
[109] E. Nevo. Genetic Diversity in Nature , 1988 .
[110] E. Golenberg. ESTIMATION OF GENE FLOW AND GENETIC NEIGHBORHOOD SIZE BY INDIRECT METHODS IN A SELFING ANNUAL, TRITICUM DICOCCOIDES , 1987, Evolution; international journal of organic evolution.
[111] D. Zohary,et al. Genotypic Composition and Mildew Resistance in a Natural Population of Wild Barley, Hordeum spontaneum , 1987 .
[112] M. Soulé,et al. Viable Populations for Conservation , 1987 .
[113] E. Nevo,et al. Multilocus differentiation and population structure in a selfer, wild emmer wheat, Triticum dicoccoides , 1987, Heredity.
[114] E. Nevo. Plant genetic resources: prediction by isozyme markers and ecology. , 1987, Isozymes.
[115] Ghillean T. Prance,et al. Gene banks and the world’s food , 1987 .
[116] E. Golenberg. Linkage Relationships in Wild Emmer Wheat, TRITICUM DICOCCOIDES. , 1986, Genetics.
[117] E. Nevo. GENETIC RESOURCES OF WILD CEREALS AND CROP IMPROVEMENT: ISRAEL, A NATURAL LABORATORY , 1986 .
[118] M. Soulé,et al. Conservation Biology: The Science of Scarcity and Diversity , 1986 .
[119] E. Nevo,et al. Genetic resources of wild barley in the near East: structure, evolution and application in breeding , 1986 .
[120] E. Nevo,et al. NATURAL SELECTION OF ALLOZYME POLYMORPHISMS: A MICROSITE TEST REVEALING ECOLOGICAL GENETIC DIFFERENTIATION IN WILD BARLEY , 1986, Evolution; international journal of organic evolution.
[121] E. Nevo,et al. Resistance of Triticum dicoccoides Collected in Israel to Infection with Puccinia recondita tritici1 , 1985 .
[122] R. Ben-Shlomo,et al. The Evolutionary Significance of Genetic Diversity: Ecological, Demographic and Life History Correlates , 1984 .
[123] E. Nevo,et al. Resistance of Hordeum spontaneum Collected in Israel to Infection with Erysiphe graminis hordei 1 , 1983 .
[124] O. H. Frankel,et al. Conservation and Evolution , 1983 .
[125] E. R. Sears,et al. The Wild Gene Resources of Wheat , 1981 .
[126] M. Feldman,et al. Multilocus Structure of Natural Populations of HORDEUM SPONTANEUM. , 1980, Genetics.
[127] J. Manisterski,et al. Chapter 5 – How Plant Populations Defend Themselves in Natural Ecosystems , 1980 .
[128] E. Nevo,et al. GENETIC DIVERSITY AND ENVIRONMENTAL ASSOCIATIONS OF WILD BARLEY, HORDEUM SPONTANEUM, IN ISRAEL , 1979, Evolution; international journal of organic evolution.
[129] E. Nevo,et al. Outcrossing rates and heterozygosity in natural populations of Hordeum spontaneum Koch in Israel , 1978, Heredity.
[130] E Nevo,et al. Genetic variation in natural populations: patterns and theory. , 1978, Theoretical population biology.
[131] S. Karlin,et al. Population genetics and ecology , 1976 .
[132] J. Hawkes,et al. Crop genetic resources for today and tomorrow. , 1975 .
[133] J. Harlan. Our vanishing genetic resources. , 1975, Science.
[134] A. Dinoor. Role of Wild and Cultivated Plants in the Epidemiology of Plant Diseases in Israel , 1974 .
[135] D. Zohary,et al. Centres of diversity and centers of origin. , 1970 .
[136] O. Frankel,et al. Genetic resources in plants-their exploration and conservation. , 1970 .
[137] D. Zohary,et al. Distribution of Wild Wheats and Barley , 1966, Science.