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LEADER 00000cam 2200757Ii 4500
001 823740559
003 OCoLC
005 20181101050956.5
006 m o d
007 cr cnu---unuuu
008 130109s2013 ne ab ob 100 0 eng d
010 |z2012954562
019 985063447|a1005836477
020 9789400746824|q(electronic bk.)
020 9400746822|q(electronic bk.)
020 |z9789400746817
020 |z9787308097901
024 7 10.1007/978-94-007-4682-4|2doi
035 (OCoLC)823740559|z(OCoLC)985063447|z(OCoLC)1005836477
040 GW5XE|beng|epn|erda|cGW5XE|dYDXCP|dZMC|dCOO|dOHS|dORU|dN$T
|dTXA|dCDX|dI9W|dIDEBK|dE7B|dOCLCF|dOCLCQ|dOCLCO|dOCL
|dOCLCQ|dVT2|dZ5A|dOCLCQ|dESU|dNJR|dUAB|dVMW|dFUG|dCOS
|dCOF|dIOG|dCEF|dU3W
049 MAIN
050 4 SB191.B2|bI58 2012
060 4 SB 191.B2
072 7 TEC|x003030|2bisacsh
082 04 633.1/6|223
111 2 International Barley Genetics Symposium|n(11th :|d2012 :
|cHangzhou, China)|0http://id.loc.gov/authorities/names/
n2017063304
245 10 Advance in barley sciences :|bproceedings of 11th
International Barley Genetics Symposium /|cGuoping Zhang,
Chengdao Li, Xu Liu, editors.
264 1 Dordrecht ;|aNew York :|bSpringer Science + Business Media
;|a[Hangzhou] :|bZhejiang University Press,|c2013.
300 1 online resource (xiii, 460 pages) :|billustrations, map
336 text|btxt|2rdacontent
337 computer|bc|2rdamedia
338 online resource|bcr|2rdacarrier
340 |gpolychrome|2rdacc|0http://rdaregistry.info/termList/
RDAColourContent/1003
347 text file|2rdaft|0http://rdaregistry.info/termList/
fileType/1002
500 Title from PDF title page (viewed Jan. 9, 2013).
504 Includes bibliographical references.
505 00 |tEvolution of Wild Barley and Barley Improvement /
|rEviatar Nevo --|tGenetic Diversity in Latvian Spring
Barley Association Mapping Population /|rIeva Mezaka,
Linda Legzdina, Robbie Waugh, Timothy J. Close --|tGenome-
Wide Association Mapping of Malting Quality Traits in
Relevant Barley Germplasm in Uruguay /|rAriel Castro,
Lorena Cammarota, Blanca Gomez, Lucia Gutierrez --|tThe
"Italian" Barley Genetic Mutant Collection: Conservation,
Development of New Mutants and Use /|rAntonio Michele
Stanca, Giorgio Tumino, Donata Pagani --|tAlpha-Amylase
Allelic Variation in Domesticated and Wild Barley /|rSuong
Cu, Sophia Roumeliotis, Jason Eglinton --|tNovel Genes
from Wild Barley Hordeum spontaneum for Barley Improvement
/|rXue Gong, Chengdao Li, Guoping Zhang, Guijun Yan, Reg
Lance --|tThe Distribution of the Hordoindoline Genes and
Identification of Puroindoline b-2 Variant Gene Homologs
in the Genus Hordeum /|rYohei Terasawa, Kanenori Takata,
Tatsuya M. Ikeda.
505 80 |tVariation in Phenological Development of Winter Barley /
|rNovo Przulj, Vojislava Momeilovi, Dragan Perovic --
|tLeaf Number and Thermal Requirements for Leaf
Development in Winter Barley /|rVojislava Momcilovic, Novo
Przulj, Milos Nozinic --|tCharacterization of the Barley
(Hordeum vulgare L.) miRNome: A Computational-Based Update
on MicroRNAs and Their Targets /|rMoreno Colaiacovo,
Cristina Crosatti, Lorenzo Giusti --|tThe Construction of
Molecular Genetic Map of Barley Using SRAP Markers /
|rLeilei L. Guo, Xianjun J. Liu, Xinchun C. Liu, Zhimin M.
Yang --|tPhenotypic Evaluation of Spring Barley RIL
Mapping Populations for Pre-harvest Sprouting, Fusarium
Head Blight and [beta]-Glucans /|rLinda Legzdina, Mara
Bleidere, Guna Usele, Daiga Vilcane --|tMolecular
Mechanisms for Covered vs. Naked Caryopsis in Barley /
|rShin Taketa, Takahisa Yuo, Yuko Yamashita, Mika Ozeki.
505 80 |tExploiting and Utilizing the Novel Annual Wild Barleys
Germplasms on the Qing-Tibetan Plateau /|rDongfa Sun,
Tingwen Xu, Guoping Zhang, Zhao Ling, Daokun Sun --
|tAgronomic and Quality Attributes of Worldwide Primitive
Barley Subspecies /|rAbderrazek Jilal, Stefania Grando,
Robert James Henry --|tDifferences between Steely and
Mealy Barley Samples Associated with Endosperm
Modification /|rBarbara Ferrari, Marina Baronchelli,
Antonio M. Stanca --|tGenotypic Difference in Molecular
Spectral Features of Cellulosic Compounds and Nutrient
Supply in Barley: A Review /|rPeiqiang Yu Ph. D. --|tUse
of Barley Flour to Lower the Glycemic Index of Food: Air
Classification [beta]-Glucan Enrichment and Postprandial
Glycemic Response After Consumption of Bread Made with
Barley [beta]-Glucan-Enriched Flour Fractions /|rFrancesca
Finocchiaro, Alberto Gianinetti, Barbara Ferrari --|tFood
Preparation from Hulless Barley in Tibet /|rNyima Tashi,
Tang Yawei, Zeng Xingquan --|tScreening Hull-less Barley
Mutants for Potential Use in Grain Whisky Distilling /
|rJohn Stuart Swanston, Jill Elaine Middlefell-Williams.
505 80 |tNatural Variation in Grain Iron and Zinc Concentrations
of Wild Barley, Hordeum spontaneum, Populations from
Israel /|rJun Yan, Fang Wang, Rongzhi Yang, Tangfu Xiao,
Tzion Fahima --|tGenes Controlling Low Phytic Acid in
Plants: Identifying Targets for Barley Breeding /|rHongxia
Ye, Chengdao Li, Matthew Bellgard, Reg Lance --
|tCorrelation Analysis of Functional Components of Barley
Grain /|rTao Yang, Ya-Wen Zeng, Xiao-Ying Pu, Juan Du, Shu
-Ming Yang --|tGenome-Wide Association Mapping Identifies
Disease-Resistance QTLs in Barley Germplasm from Latin
America /|rLucia Gutierrez, Natalia Berberian, Flavio
Capettini --|tThe CC-NB-LRR-type Rdg2a Resistance Gene
Evolved Through Recombination and Confers Immunity to the
Seed-Borne Barley Leaf Stripe Pathogen in the Absence of
Hypersensitive Cell Death /|rChiara Biselli, Davide
Bulgarelli, Nicholas C. Collins --|tIncreased Auxin
Content and Altered Auxin Response in Barley Necrotic
Mutant nec1 /|rAnete Keisa, Ilva Nakurte, Laura Kunga,
Liga Kale.
505 80 |tVulnerability of Cultivated and Wild Barley to African
Stem Rust Race TTKSK /|rBrian J. Steffenson, Hao Zhou,
Yuan Chai, Stefania Grando --|tGenome-Wide Association
Mapping Reveals Genetic Architecture of Durable Spot
Blotch Resistance in US Barley Breeding Germplasm /|rHao
Zhou, Brian J. Steffenson --|tGenetic Fine Mapping of a
Novel Leaf Rust Resistance Gene and a Barley Yellow Dwarf
Virus Tolerance (BYDV) Introgressed from Hordeum bulbosum
by the Use of the 9K iSelect Chip /|rPerovic Dragan, Doris
Kopahnke, Brian J. Steffenson --|tA Major QTL Controlling
Adult Plant Resistance for Barley Leaf Rust /|rChengdao Li,
Sanjiv Gupta, Xiao-Qi Zhang, Sharon Westcott --|tLarge
Population with Low Marker Density Verse Small Population
with High Marker Density for QTL Mapping: A Case Study for
Mapping QTL Controlling Barley Net Blotch Resistance /
|rJian Yang, Chengdao Li, Xue Gong, Sanjiv Gupta, Reg
Lance --|t"Deep Phenotyping" of Early Plant Response to
Abiotic Stress Using Non-invasive Approaches in Barley /
|rAgim Ballvora, Christoph Romer, Mirwaes Wahabzada.
505 80 |tBarley Adaptation: Teachings from Landraces Will Help to
Respond to Climate Change /|rErnesto Igartua, Ildiko
Karsai, M. Cristina Casao, Otto Veisz --|tDevelopment of
Recombinant Chromosome Substitution Lines for Aluminum
Tolerance in Barley /|rKazuhiro Sato, Jianfeng Ma --|tNew
and Renewed Breeding Methodology /|rHayes Patrick, Cuesta-
Marcos Alfonso --|tBarley in Tropical Areas: The Brazilian
Experience /|rEuclydes Minella --|tPerformance and Yield
Components of Forage Barley Grown Under Harsh
Environmental Conditions of Kuwait /|rHabibah S. Al-Menaie,
Hayam S. Mahgoub, Ouhoud Al-Ragam --|tVariability of
Spring Barley Traits Essential for Organic Farming in
Association Mapping Population /|rLinda Legzdina, Ieva
Mezaka, Indra Beinarovica, Aina Kokare --|tBarley
Production and Breeding in Europe: Modern Cultivars
Combine Disease Resistance, Malting Quality and High Yield
/|rWolfgang Friedt, Frank Ordon.
520 Advance in barley sciences presents the latest
developments in barley sciences. It collects 39 papers
submitted to the 11th International Barley Genetics
Symposium, and covers all presentation sessions of the
conference, i.e., barley development and economy,
utilization of germplasm, genetic resources and genetic
stocks, end-uses, biotic stress tolerance, abiotic
stresses, new and renewed breeding methodology, barley
physiology, breeding success stories, barley genomics and
all other '-omics.' The information will be useful for
barley breeders, brewers, biochemists, molecular
geneticists and biotechnologists. This book may also serve
as reference text for students and scientists engaged in
barley research. Dr. Guoping Zhang is a barley breeder and
crop physiologist at the Department of Agronomy, Zhejiang
University, China. Dr. Chengdao Li is a senior molecular
geneticist and barley breeder at the Department of
Agriculture and Food, Western Australia, Australia. He is
also an adjunct professor at Murdoch University of
Australia and Zhejiang University. Dr. Xu Liu, a member of
the China Academy of Engineering, is a plant resources
researcher at the Chinese Academy of Agricultural
Sciences.
650 0 Barley|xGenetics|0http://id.loc.gov/authorities/subjects/
sh85011878|vCongresses.|0http://id.loc.gov/authorities/
subjects/sh99001533
650 2 Hordeum|xgenetics.|0https://id.nlm.nih.gov/mesh/
D001467Q000235
653 4 Life sciences.
653 4 Agriculture.
653 4 Molecular ecology.
653 4 Botany.
653 4 Farm economics.
653 4 Plant Sciences.
653 4 Agricultural Economics.
655 2 Congress.|0https://id.nlm.nih.gov/mesh/D016423
655 4 Electronic books.
655 7 Conference papers and proceedings.|2fast|0http://
id.worldcat.org/fast/1423772
655 7 Conference papers and proceedings.|2lcgft|0http://
id.loc.gov/authorities/genreForms/gf2014026068
700 1 Zhang, Guoping.|0http://id.loc.gov/authorities/names/
n81106489
700 1 Li, Chengdao.|0http://id.loc.gov/authorities/names/
no2004118320
700 1 Liu, Xu|c(Plant resources researcher)|0http://id.loc.gov/
authorities/names/n2017063302
776 08 |iPrinted edition:|z9789400746817
880 0 |6505-00|aEvolution of Wild Barley and Barley Improvement
-- Genetic Diversity in Latvian Spring Barley Association
Mapping Population -- Genome-Wide Association Mapping of
Malting Quality Traits in Relevant Barley Germplasm in
Uruguay -- The zItaliany Barley Genetic Mutant Collection:
Conservation, Development of New Mutants and Use -- α-
Amylase Allelic Variation in Domesticated and Wild Barley
-- Novel Genes from Wild Barley Hordeum spontaneum for
Barley Improvement -- The Distribution of the
Hordoindoline Genes and Identification of Puroindoline b&
#x2013; 2 Yariant Gene Homologs in the Genus Hordeum --
Exploiting and Utilizing the Novel Annual Wild Barley
Germplasms on the Qing-Tibetan Plateau -- Agronomic and
Quality Attributes of Worldwide Primitive Barley
Subspecies -- Differences between Steely and Mealy Barley
Samples Associated with Endosperm Modification --
Genotypic Difference in Molecular Spectral Features of
Cellulosic Compounds and Nutrient Supply in Barley: A
Review -- Use of Barley Flour to Lower the Glycemic Index
of Food: Air Classification β-Glucan-Enrichment and
Postprandial Glycemic Response after Consumption of Bread
Made with Barleyβ-Glucan-Enriched Flour Fractions -- Food
Preparation from Hulless Barley in Tibet -- Screening
Hulless Barley Mutants for Potential Use in Grain Whisky
Distilling -- Natural Variation in Grain Iron and Zinc
Concentrations of Wild Barley, Hordeum spontaneum,
Populations from Israel -- Genes Controlling Low Phytic
Acid in Plants: Identifying Targets for Barley Breeding --
Correlation Analysis of Functional Components of Barley
Grain -- Genome-Wide Association Mapping Identifies
Disease Resistance QTLs in Barley Germplasm from Latin
America -- The CC-NB-LRR-Type Rdg2a Resistance Gene
Evolved’ through Recombination and Confers Immunity
to the Seed-Borne Barley Leaf Stripe Pathogen in the
Absence of Hypersensitive Cell Death -- Increased Auxin
Content and Altered Auxin Response in Barley Necrotic
Mutant nec1 -- Vulnerability of Cultivated and Wild Barley
to African Stem Rust Race TTKSK -- Genome-Wide Association
Mapping Reveals Genetic Architecture of Durable Spot
Blotch Resistance in US Barley Breeding Germplasm --
Genetic Fine Mapping of a Novel Leaf Rust Resistance Gene
and a Barley Yellow Dwarf Virus Tolerance(BYDV)
Introgressed from Hordeum Bulbosum by the Use of the 9K
iSelect Chip -- A major QTL Controlling Adult Plant
Resistance for Barley Leaf Rust -- Large Population with
Low Marker Density Verse Small Population with High Marker
Density for QTL Mapping: A Case Study for Mapping QTL
Controlling Barley Net Blotch Resistance -- zDeep
Phenotypingy of Early Plant Response to Abiotic Stress
Using Non-invasive Approaches in Barley -- Barley
Adaptation: Teachings from Landraces will Help to Respond
to Climate Change -- Development of Recombinant Chromosome
SubstitutionLines for Aluminium Tolerance in Barley -- New
and Renewed Breeding Methodology -- Barley in Tropical
Areas: The Brazilian Experience -- Performance and Yield
Components of Forage Barley Grown under Harsh
Environmental Conditions of Kuwait -- Variability of
Spring Barley Traits Essential for Organic Farming in
Association Mapping Population -- Barley Production and
Breeding in Europe: Modern Cultivars Combine Disease
Resistance, Malting Quality and High Yield -- Variation in
Phenological Development of Winter Barley -- Leaf Number
and Thermal Requirements for Leaf Development in Winter
Barley -- Characterization of the Barley (Hordeum vulgare
L.) miRNomea: A Computational-Based Update on MicroRNAs
and Their Targets -- The Construction of Molecular Genetic
Map of Barley Using SRAP Markers -- Phenotypic Evaluation
of Spring Barley RIL Mapping Populations for Pre-Harvest
Sprouting, Fusarium Head Blight and β-Glucans -- Molecular
Mechanisms for Covered vs. Naked Caryopsis in Barley.
990 SpringerLink|bSpringer English/International eBooks 2013 -
Full Set|c2018-10-31|yNew collection
springerlink.ebooks2013|5OH1
| ||||||||||||
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