A discourse or historie of bees [[electronic resource] ] : Shewing their nature and usage, and the great profit of them. VVhereunto is added the causes, and cure of blasted wheat. And some remedies for blasted hops, and rie, and fruit. Together with the causes of smutty wheat: all which are very usefull for this later age. Written by Richard Remnant |
Autore | Remnant Richard |
Pubbl/distr/stampa | London, : Printed by Robert Young for Thomas Slater, dwelling in duck lane at the white Swan, 1637 |
Descrizione fisica | [4], 47, [1] p |
Soggetto topico |
Bees
Wheat - Diseases and pests |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Record Nr. | UNISA-996396617703316 |
Remnant Richard
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London, : Printed by Robert Young for Thomas Slater, dwelling in duck lane at the white Swan, 1637 | ||
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Lo trovi qui: Univ. di Salerno | ||
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Wheat [[electronic resource] ] : science and trade / / edited by Brett F. Carver |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Ames, Iowa, : Wiley-Blackwell, c2009 |
Descrizione fisica | 1 online resource (615 p.) |
Disciplina |
633.1/1
633.11 |
Altri autori (Persone) | CarverBrett Frederick <1958-> |
Collana | World Agriculture Series |
Soggetto topico |
Wheat - Genetics
Wheat - Diseases and pests Wheat - Breeding Wheat trade |
ISBN |
1-282-30233-7
9786612302336 0-8138-1883-4 0-8138-1923-7 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
cover; Contents; Foreword; Preface; Acknowledgements; Contributors; Section I: Making of a Wheat Plant; Chapter 1: Wheat Evolution, Domestication, and Improvement; SUMMARY; INTRODUCTION; WHEAT DOMESTICATION AND HUMAN CIVILIZATION; WHEAT CULTIVATION; ORIGIN, DOMESTICATION, AND EVOLUTION OF WHEAT; Polyploidy, a form of plant evolution; Origin of the A genome; Origin of the B genome; Emmer and durum wheat; Origin of Triticum turgidum; Origin of Triticum dicoccoides (wild emmer); Origin of hexaploid wheat; GENOME EVOLUTION AND MODIFICATION; MECHANISMS FOR CHROMOSOME EVOLUTION
Chromosomal rearrangements and repetitive DNAHeterochromatin; Repetitive DNA; Repatterning of rDNA arrays in the wheat genome; Repetitive DNA and mobile elements as perpetual generators of diversity and evolution; THE POTENTIAL OF WILD EMMER IN WHEAT IMPROVEMENT; CONCLUDING REMARKS ON THE PROCESS OF WHEAT EVOLUTION; FUTURE PERSPECTIVES; REFERENCES; Chapter 2: Development of the Wheat Plant; SUMMARY; INTRODUCTION; SCALES OF PLANT DEVELOPMENT; Canopies; Shoots or tillers; Phytomers; MORPHOLOGICAL NAMING SCHEMES; Leaves; Tillers; Inflorescence parts; Roots; SHOOT DEVELOPMENT; Phenology Shoot apexIntegrating phenology, the shoot apex, and phytomers; ENVIRONMENTAL FACTORS INFLUENCING SHOOT DEVELOPMENT; Temperature; Nontemperature environmental factors; DIGITAL TECHNOLOGIES FOR WHEAT DEVELOPMENT; LINKING MOLECULAR BIOLOGY AND FUNCTIONAL GENOMICS TO DEVELOPMENT; FUTURE PERSPECTIVES; REFERENCES; Chapter 3: The Flowering Pathway in Wheat; SUMMARY; OVERVIEW OF FLOWERING INDUCTION IN WHEAT; GENETIC LOCATIONS OF FLOWERING TIME GENES; Genetic loci regulating vernalization response; VRN-1 on the long arm of homoeologous chromosomes 5 VRN-Am2 on chromosome 5Am in a genomic region translocated from chromosome 4AmVRN-B3 on the short arm of chromosome 7B; Other vernalization genes in wheat; Genetic loci regulating photoperiod sensitivity; Genetic loci regulating plant development processes; Quantitative trait loci affecting flowering time; Epistatic interactions; POSITIONAL CLONING OF FLOWERING TIME GENES IN WHEAT; VRN-Am1, an orthologue of AP1, promotes flowering; VRN-Am2, a CCT-domain-containing gene, represses flowering; VRN-B3, an orthologue of FT, promotes flowering; Successes in positional cloning of vernalization genes Orthologues of other known flowering time genesConcomitant transcriptional profiles of flowering time genes; COMPARATIVE STUDIES ON FLOWERING PATHWAYS IN PLANTS; Flowering pathways in model species; A model for the wheat flowering pathway; FUTURE PERSPECTIVES; REFERENCES; Section II: Making of a Wheat Crop; Chapter 4: Systems-Based Wheat Management Strategies; SUMMARY; INTRODUCTION; ADVANCES IN WHEAT MANAGEMENT; Yield building versus yield protecting factors; Intensive wheat management; Matching cultivar to environment; Fertility and pest management; Timeliness and precision Previous crop management |
Record Nr. | UNINA-9910139874203321 |
Ames, Iowa, : Wiley-Blackwell, c2009 | ||
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Lo trovi qui: Univ. Federico II | ||
|
Wheat [[electronic resource] ] : science and trade / / edited by Brett F. Carver |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Ames, Iowa, : Wiley-Blackwell, c2009 |
Descrizione fisica | 1 online resource (615 p.) |
Disciplina |
633.1/1
633.11 |
Altri autori (Persone) | CarverBrett Frederick <1958-> |
Collana | World Agriculture Series |
Soggetto topico |
Wheat - Genetics
Wheat - Diseases and pests Wheat - Breeding Wheat trade |
ISBN |
1-282-30233-7
9786612302336 0-8138-1883-4 0-8138-1923-7 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
cover; Contents; Foreword; Preface; Acknowledgements; Contributors; Section I: Making of a Wheat Plant; Chapter 1: Wheat Evolution, Domestication, and Improvement; SUMMARY; INTRODUCTION; WHEAT DOMESTICATION AND HUMAN CIVILIZATION; WHEAT CULTIVATION; ORIGIN, DOMESTICATION, AND EVOLUTION OF WHEAT; Polyploidy, a form of plant evolution; Origin of the A genome; Origin of the B genome; Emmer and durum wheat; Origin of Triticum turgidum; Origin of Triticum dicoccoides (wild emmer); Origin of hexaploid wheat; GENOME EVOLUTION AND MODIFICATION; MECHANISMS FOR CHROMOSOME EVOLUTION
Chromosomal rearrangements and repetitive DNAHeterochromatin; Repetitive DNA; Repatterning of rDNA arrays in the wheat genome; Repetitive DNA and mobile elements as perpetual generators of diversity and evolution; THE POTENTIAL OF WILD EMMER IN WHEAT IMPROVEMENT; CONCLUDING REMARKS ON THE PROCESS OF WHEAT EVOLUTION; FUTURE PERSPECTIVES; REFERENCES; Chapter 2: Development of the Wheat Plant; SUMMARY; INTRODUCTION; SCALES OF PLANT DEVELOPMENT; Canopies; Shoots or tillers; Phytomers; MORPHOLOGICAL NAMING SCHEMES; Leaves; Tillers; Inflorescence parts; Roots; SHOOT DEVELOPMENT; Phenology Shoot apexIntegrating phenology, the shoot apex, and phytomers; ENVIRONMENTAL FACTORS INFLUENCING SHOOT DEVELOPMENT; Temperature; Nontemperature environmental factors; DIGITAL TECHNOLOGIES FOR WHEAT DEVELOPMENT; LINKING MOLECULAR BIOLOGY AND FUNCTIONAL GENOMICS TO DEVELOPMENT; FUTURE PERSPECTIVES; REFERENCES; Chapter 3: The Flowering Pathway in Wheat; SUMMARY; OVERVIEW OF FLOWERING INDUCTION IN WHEAT; GENETIC LOCATIONS OF FLOWERING TIME GENES; Genetic loci regulating vernalization response; VRN-1 on the long arm of homoeologous chromosomes 5 VRN-Am2 on chromosome 5Am in a genomic region translocated from chromosome 4AmVRN-B3 on the short arm of chromosome 7B; Other vernalization genes in wheat; Genetic loci regulating photoperiod sensitivity; Genetic loci regulating plant development processes; Quantitative trait loci affecting flowering time; Epistatic interactions; POSITIONAL CLONING OF FLOWERING TIME GENES IN WHEAT; VRN-Am1, an orthologue of AP1, promotes flowering; VRN-Am2, a CCT-domain-containing gene, represses flowering; VRN-B3, an orthologue of FT, promotes flowering; Successes in positional cloning of vernalization genes Orthologues of other known flowering time genesConcomitant transcriptional profiles of flowering time genes; COMPARATIVE STUDIES ON FLOWERING PATHWAYS IN PLANTS; Flowering pathways in model species; A model for the wheat flowering pathway; FUTURE PERSPECTIVES; REFERENCES; Section II: Making of a Wheat Crop; Chapter 4: Systems-Based Wheat Management Strategies; SUMMARY; INTRODUCTION; ADVANCES IN WHEAT MANAGEMENT; Yield building versus yield protecting factors; Intensive wheat management; Matching cultivar to environment; Fertility and pest management; Timeliness and precision Previous crop management |
Record Nr. | UNINA-9910831192203321 |
Ames, Iowa, : Wiley-Blackwell, c2009 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Wheat [[electronic resource] ] : science and trade / / edited by Brett F. Carver |
Edizione | [1st ed.] |
Pubbl/distr/stampa | Ames, Iowa, : Wiley-Blackwell, c2009 |
Descrizione fisica | 1 online resource (615 p.) |
Disciplina |
633.1/1
633.11 |
Altri autori (Persone) | CarverBrett Frederick <1958-> |
Collana | World Agriculture Series |
Soggetto topico |
Wheat - Genetics
Wheat - Diseases and pests Wheat - Breeding Wheat trade |
ISBN |
1-282-30233-7
9786612302336 0-8138-1883-4 0-8138-1923-7 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
cover; Contents; Foreword; Preface; Acknowledgements; Contributors; Section I: Making of a Wheat Plant; Chapter 1: Wheat Evolution, Domestication, and Improvement; SUMMARY; INTRODUCTION; WHEAT DOMESTICATION AND HUMAN CIVILIZATION; WHEAT CULTIVATION; ORIGIN, DOMESTICATION, AND EVOLUTION OF WHEAT; Polyploidy, a form of plant evolution; Origin of the A genome; Origin of the B genome; Emmer and durum wheat; Origin of Triticum turgidum; Origin of Triticum dicoccoides (wild emmer); Origin of hexaploid wheat; GENOME EVOLUTION AND MODIFICATION; MECHANISMS FOR CHROMOSOME EVOLUTION
Chromosomal rearrangements and repetitive DNAHeterochromatin; Repetitive DNA; Repatterning of rDNA arrays in the wheat genome; Repetitive DNA and mobile elements as perpetual generators of diversity and evolution; THE POTENTIAL OF WILD EMMER IN WHEAT IMPROVEMENT; CONCLUDING REMARKS ON THE PROCESS OF WHEAT EVOLUTION; FUTURE PERSPECTIVES; REFERENCES; Chapter 2: Development of the Wheat Plant; SUMMARY; INTRODUCTION; SCALES OF PLANT DEVELOPMENT; Canopies; Shoots or tillers; Phytomers; MORPHOLOGICAL NAMING SCHEMES; Leaves; Tillers; Inflorescence parts; Roots; SHOOT DEVELOPMENT; Phenology Shoot apexIntegrating phenology, the shoot apex, and phytomers; ENVIRONMENTAL FACTORS INFLUENCING SHOOT DEVELOPMENT; Temperature; Nontemperature environmental factors; DIGITAL TECHNOLOGIES FOR WHEAT DEVELOPMENT; LINKING MOLECULAR BIOLOGY AND FUNCTIONAL GENOMICS TO DEVELOPMENT; FUTURE PERSPECTIVES; REFERENCES; Chapter 3: The Flowering Pathway in Wheat; SUMMARY; OVERVIEW OF FLOWERING INDUCTION IN WHEAT; GENETIC LOCATIONS OF FLOWERING TIME GENES; Genetic loci regulating vernalization response; VRN-1 on the long arm of homoeologous chromosomes 5 VRN-Am2 on chromosome 5Am in a genomic region translocated from chromosome 4AmVRN-B3 on the short arm of chromosome 7B; Other vernalization genes in wheat; Genetic loci regulating photoperiod sensitivity; Genetic loci regulating plant development processes; Quantitative trait loci affecting flowering time; Epistatic interactions; POSITIONAL CLONING OF FLOWERING TIME GENES IN WHEAT; VRN-Am1, an orthologue of AP1, promotes flowering; VRN-Am2, a CCT-domain-containing gene, represses flowering; VRN-B3, an orthologue of FT, promotes flowering; Successes in positional cloning of vernalization genes Orthologues of other known flowering time genesConcomitant transcriptional profiles of flowering time genes; COMPARATIVE STUDIES ON FLOWERING PATHWAYS IN PLANTS; Flowering pathways in model species; A model for the wheat flowering pathway; FUTURE PERSPECTIVES; REFERENCES; Section II: Making of a Wheat Crop; Chapter 4: Systems-Based Wheat Management Strategies; SUMMARY; INTRODUCTION; ADVANCES IN WHEAT MANAGEMENT; Yield building versus yield protecting factors; Intensive wheat management; Matching cultivar to environment; Fertility and pest management; Timeliness and precision Previous crop management |
Record Nr. | UNINA-9910841455103321 |
Ames, Iowa, : Wiley-Blackwell, c2009 | ||
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Lo trovi qui: Univ. Federico II | ||
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