04647nam 22006373u 450 991083019580332120230213215807.01-118-06101-2(CKB)3400000000000345(EBL)818731(OCoLC)770872579(SSID)ssj0000715357(PQKBManifestationID)11404020(PQKBTitleCode)TC0000715357(PQKBWorkID)10701210(PQKB)11081989(MiAaPQ)EBC818731(EXLCZ)99340000000000034520130418d1986|||| u|| |engur|n|---|||||txtccrPlant Breeding ReviewsVolume 4[electronic resource]Hoboken John Wiley & Sons19861 online resource (422 p.)Plant Breeding Reviews ;v. 4Description based upon print version of record.1-118-06442-9 PLANT BREEDING REVIEWS Volume 4; Contents; Contributors; 1 Dedication: Henry M. Munger Vegetable Breeder and Educator; Text; Publications of Henry M. Munger; 2 Pollen, Pistil, and Reproductive Function in Crop Plants; I. Introduction; II. Pollen; III. The Receptive Pistil; IV. Pollen-Pistil Interactions; V. Potential for Pollen Selection; VI. Conclusions; Literature Cited; 3 Mobile Elements in Maize; I. Introduction; II. Phenotypic Expression of Mobile-Element-Induced Variegation; III. Components and Molecular Structure of Mobile Elements; IV. Genetic Determination of Mobile ElementsV. TranspositionVI. Effects on Gene Expression; VII. Origins and Activation of Mobile Elements; VIII. Molecular Summary of Mobile Elements; IX. Mobile Elements, Evolution, and Crop Improvement; X. Concluding Comments; XI. Glossary; Literature Cited; 4 Somaclonal Variation in Alfalfa; I. Introduction; II. Variation among Regenerated Plants; III. Managing Somaclonal Variation; IV. Conclusions; Literature Cited; 5 Cell Selection for Crop Improvement; I. Introduction; II. Tissue Culture and Cell Selection; III. Successful Cell Selections; IV. Tissue Culture and Cell Selection: An AssessmentV. ConclusionLiterature Cited; 6 Oil Palm Improvement via Tissue Culture; I. Introduction; II. Conventional Propagation and Improvement; III. In Vitro Approaches; IV. General Methodology; V. Conclusions and Prospects; Literature Cited; 7 Breeding Soybeans for Drought Resistance; I. Introduction; II. Morphological Responses to Drought Stress; III. Physiological Responses to Drought Stress; IV. Biochemical Responses to Drought Stress; V. Physical Responses to Drought Stress; VI. Germplasm Variability and Heritability; VII. Selection for Drought ResistanceVIII. Screening Systems for Drought ResistanceLiterature Cited; 8 Breeding Common Bean for Yield in Mixtures; I. Introduction; II. Genetic Implications of Competition in Pure Stands; III. Yield of Beans in Mixture with Maize; IV. Yield of Beans in Relay Cropping with Maize; V. Yield of Beans in Mixtures and Relay Cropped with Maize; VI. Effect of Planting Beans before Maize in Mixtures; VII. Use of Both Pure Stands and Mixture Performance to Predict Bean Yields; VIII. Yield of Segregating Populations of Beans in Pure Stands and in Mixtures with MaizeIX. Effect of Beans on the Yield of Maize in MixturesX. Influence of Plant Habit and Seed Size on Yield of Beans in Mixtures with Maize; XI. Effect of Eliminating Low-Yielding Bean Cultivars in Either Pure Stands or Mixtures; XII. General Discussion of Results; XIII. Breeding Options for Beans That Are to Be Grown in Pure Stands and in Mixtures and/or Relay Cropping with Maize; XIV. Concluding Remarks; Literature Cited; 9 Inheritance of Tomato Fruit Quality Components; I. Introduction; II. Fruit Solids; III. Acidity; IV. Carotenoids; V. Vitamins; VI. Inorganic ConstituentsVII. Volatile CompoundsPlant Breeding ReviewsPlant breeding -- PeriodicalsPlant breedingAgricultureHILCCEarth & Environmental SciencesHILCCPlant SciencesHILCCPlant breeding -- Periodicals.Plant breeding.AgricultureEarth & Environmental SciencesPlant Sciences631.5305Janick Jules1931-1603172AU-PeELAU-PeELAU-PeELBOOK9910830195803321Plant breeding reviews3940460UNINA