Verfügbarkeit: Crop yield :: THWS Bibkatalog

Crop yield: physiology and processes

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Bibliographische Detailangaben
Format:	Buch
Sprache:	German
Veröffentlicht:	Berlin [u.a.] Springer 1999
Schlagworte:	Cultures - Rendements Physiologie végétale Ernteertrag Pflanzenphysiologie Nutzpflanzen Ertragsbildung Ertragsphysiologie Aufsatzsammlung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XVI, 504 S. Ill., graph. Darst.
ISBN:	3540644776

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Datensatz im Suchindex

_version_	1807681589661925376
adam_text	CONTENTS PHYSIOLOGICAL CONTROL OF GROWTH AND YIELD IN WHEAT: ANALYSIS AND SYNTHESIS R.K.M. HAY 1 INTRODUCTION . 1 2 COMPONENTS OF YIELD . 2 3 WHEAT DEVELOPMENT . 3 3.1 LEAF, SPIKELET AND FLORET INITIATION AT THE MAINSTEM APEX . 5 3.2 LEAF APPEARANCE AND EXPANSION; TILLER DEVELOPMENT . 6 4 QUANTITATIVE ASPECTS OF DEVELOPMENT: CANOPY GENERATION . 7 4.1 GERMINATION AND CROP EMERGENCE . 8 4.2 LEAF APPEARANCE . 8 4.3 FINAL LEAF NUMBER . 11 4.4 LEAF EXPANSION . 15 4.5 LEAF SENESCENCE . 17 4.6 TILLERS . 17 4.7 LEAF AREA INDEX . 18 5 LEAF (GREEN) AREA INDEX AND THE INTERCEPTION OF PAR . 20 6 RADIATION-USE EFFICIENCY . 21 6.1 PHOTOSYNTHETIC EFFICIENCY OF SINGLE LEAVES AND CANOPIES . 21 6.2 RADIATION-USE EFFICIENCY OF WHEAT CANOPIES . 22 6.3 VARIATION IN RADIATION-USE EFFICIENCY: STRESS AND ONTOGENY . 24 7 QUANTITATIVE ASPECTS OF DEVELOPMENT: GENERATION OF GRAIN POPULATION DENSITY . 27 7.1 SIMULATION OF ORGAN SURVIVAL . 29 7.2 SIMULATION OF GRAIN YIELD AND ITS COMPONENTS . 29 8 CONCLUSIONS . 31 REFERENCES . 33 GROWTH AND DEVELOPMENT OF OAT WITH SPECIAL REFERENCE TO SOURCE-SINK INTERACTION AND PRODUCTIVITY P. PELTONEN-SAINIO 1 OAT AS A SUBJECT FOR CROP PHYSIOLOGICAL STUDIES . 39 2 PHENOSTAGES AND PHENOPHASES OF OAT WITH AGRICULTURAL INTEREST . 40 2.1 PHENOSTAGES . 40 2.2 PHENOPHASES . 44 VIII CONTENTS 3 CANOPY ARCHITECTURE AND FUNCTION IN RELATION TO DRY-MATTER PRODUCTION . 46 3.1 EARLY CANOPY CLOSURE AND ACHIEVEMENT OF OPTIMUM LAI DURING FORMATION OF YIELD POTENTIAL . 47 3.2 MAINTAINING EFFICIENT INTERCEPTION OF PAR DURING GRAIN GROWTH . 48 4 VEGETATIVE ORGANS AS COMPETING SINKS DURING FORMATION AND REALIZATION OF YIELD POTENTIAL . 52 4.1 ROOT GROWTH AND FUNCTION: THE HIDDEN COMPONENT OF CROP PHYSIOLOGY . 52 4.2 TILLERS: WASTE OR ECONOMIC RESERVOIRS OF ASSIMILATES? . 53 4.3 STEM ELONGATION AND EFFECTS OF PLANT HEIGHT ON ASSIMILATE COMPETITION . 55 4.4 GRAIN FILLING AS A FINAL PROCESS AFFECTING REALIZATION OF YIELD POTENTIAL . 56 4.4.1 INCREASING GRAIN-FILLING RATE . 56 4.4.2 INCREASING HARVEST INDEX? . 58 5 THE NEED FOR DESCRIPTION OF OAT IDEOTYPES? . 59 REFERENCES . 61 BARLEY: PHYSIOLOGY OF YIELD D.L. SMITH, M. DIJAK, P. BULMAN, B.L. MA, AND C. HAMEL - 1 APEX DEVELOPMENT AND CONTRIBUTION TO YIELD . 67 1.1 INFLORESCENCE DEVELOPMENT . 68 1.1.1 STRUCTURE OF THE BARLEY SPIKE . 68 1.1.2 INFLORESCENCE DIFFERENTIATION . 68 1.1.3 FACTORS AFFECTING APICAL DEVELOPMENT . 69 1.2 YIELD COMPONENTS . 71 2 TILLERING AND TILLER CONTRIBUTION TO GRAIN YIELD . 71 2.1 TILLERING . 71 2.2 TILLERING AND YIELD . 74 2.3 TILLERING: HORMONAL CONTROL AND PLANT GROWTH REGULATORS . 74 3 GRAIN FILLING . 75 4 CARBON METABOLISM . 78 4.1 PHOTOSYNTHESIS AND RADIATION USE EFFICIENCY . 78 4.2 WATER USE EFFICIENCY . 79 4.3 HARVEST INDEX . 81 4.4 DRY MATTER PARTITIONING . 81 5 NITROGEN METABOLISM . 83 5.1 NITROGEN UPTAKE . 83 5.2 NITRATE AND NITRITE REDUCTASE ACTIVITY . 84 5.3 NITROGEN ASSIMILATION . 84 5.4 SENESCENCE . 85 5.5 AMINO ACID TRANSLOCATION . 85 CONTENTS IX 5.6 PATTERN OF N UPTAKE . 85 5.7 GRAIN NITROGEN . 86 6 PROTEIN SYNTHESIS AND AMINO ACID COMPOSITION . 87 7 CONTRIBUTION OF PREANTHESIS CARBON AND NITROGEN TO YIELD . 87 7.1 RETRANSLOCATION OF CARBON DURING GRAIN FILLING . 87 7.2 RETRANSLOCATION OF NITROGEN DURING GRAIN FILLING . 88 8 PHOSPHORUS UPTAKE AND MYCORRHIZAL ASSOCIATIONS . 89 9 POTASSIUM UPTAKE . 90 10 PLANT LODGING AND GROWTH REGULATORS . 90 11 CONCLUSIONS . 92 REFERENCES . 92 RICE A.R. SHARMA AND D.P. SINGH 1 INTRODUCTION . 109 2 GROWTH AND DEVELOPMENT . 110 2.1 VEGETATIVE GROWTH . ILL 2.2 REPRODUCTIVE GROWTH . 114 3 PHOTOSYNTHESIS AND DRY-MATTER PRODUCTION . 115 3.1 LEAF PHOTOSYNTHETIC RATE . 116 3.2 LEAF ORIENTATION . 118 3.3 LEAF AREA . . . 118 3.4 VARIETAL DIFFERENCES . 120 4 ENVIRONMENTAL CONTROL OF GROWTH AND YIELD . 120 4.1 RAINFALL . 120 4.1.1 DROUGHT . 121 4.1.2 SUBMERGENCE . 122 4.1.2.1 ADAPTATION TO PROLONGED SUBMERGENCE . 123 4.1.2.2 SUBMERGENCE TOLERANCE . 123 4.2 TEMPERATURE . 124 4.3 LIGHT . 126 4.4 CO 2 CONCENTRATION . 127 4.5 RELATIVE HUMIDITY AND WIND VELOCITY . 127 5 YIELD DETERMINING PROCESSES . 128 5.1 STORAGE OF ASSIMILATES . 129 5.2 DETERMINATION OF YIELD CAPACITY . 130 5.3 PARTITIONING AND TRANSLOCATION OF ASSIMILATES . 131 5.4 CONTRIBUTION OF PRE AND POST-FLOWERING CARBOHYDRATES TO GRAIN YIELD . 131 5.5 SOURCE-SINK RELATIONSHIP . 132 6 ANALYSIS OF YIELD COMPONENTS . 134 6.1 SPIKELET NUMBER . 135 6.2 PERCENTAGE OF FILLED SPIKELETS . 136 6.3 STERILITY . 138 X CONTENTS 6.4 GRAIN WEIGHT . 139 7 RESPONSE TO CULTURAL FACTORS . 139 7.1 METHOD OF CROP ESTABLISHMENT . 139 7.2 NITROGEN FERTILIZATION . 141 8 IMPROVING YIELD POTENTIAL . 142 8.1 ESTIMATION OF YIELD POTENTIAL . 143 8.2 PHYSIOLOGICAL TRAITS FOR YIELD IMPROVEMENT . 144 8.2.1 INCREASING BIOMASS PRODUCTION . 144 8.2.2 INCREASING HARVEST INDEX . 146 8.2.2.1 IMPROVING SINK CAPACITY . 146 8.2.2.2 IMPROVING RIPENING PERCENTAGE . 147 8.3 YIELD POTENTIAL AND NITROGEN REQUIREMENT . 148 9 NEW PLANT TYPES . 148 9.1 PLANT TYPE FOR IRRIGATED ECOSYSTEMS . 149 9.1.1 REDUCED TILLERING AND LARGE PANICLES . 151 9.1.2 GRAIN SIZE AND HIGH-DENSITY GRAINS . 151 9.1.3 CANOPY AND LEAF CHARACTERISTICS . 152 9.1.4 SHORT AND STIFF CULM . 152 9.1.5 CROP GROWTH DURATION . 153 9.2 PLANT TYPES FOR RAIN-FED ECOSYSTEMS . 153 9.3 PRESENT STATUS OF NEW-PLANT TYPE DEVELOPMENT . 154 10 HYBRID RICE . 155 11 BIOTECHNOLOGICAL APPROACHES . 157 12 FUTURE DIRECTIONS . 159 REFERENCES . 160 PHYSIOLOGY OF MAIZE M. TOLLENAAR AND L.M. DWYER 1 INTRODUCTION . 169 1.1 HISTORY, PRODUCTION, AND UTILIZATION . 169 1.2 TAXONOMY AND MORPHOLOGY . 170 1.3 AGRONOMY AND PHYSIOLOGY . 171 2 PHENOLOGY . 171 2.1 PHASIC DEVELOPMENT . 171 2.2 RELATIVE MATURITY AND RATE OF DEVELOPMENT . 174 3 DRY MATTER ACCUMULATION . 182 3.1 INCIDENT SOLAR RADIATION . 182 3.2 ABSORPTION OF SOLAR IRRADIANCE . 184 3.2.1 LEAF AREA INDEX . 184 3.2.2 CANOPY EXTINCTION COEFFICIENT . 187 3.3 RADIATION-USE EFFICIENCY AND TOTAL DRY MATTER ACCUMULATION . 188 4 DRY MATTER PARTITIONING . 191 CONTENTS XI 4.1 GENERAL SOURCE-SINK RELATIONSHIPS . 191 4.2 SOURCE STRENGTH . 192 4.3 EXPORT FROM LEAVES . 193 4.4 TEMPORARY STORAGE . 194 4.5 COMPETING DEMANDS FOR NITROGEN . 194 5 GENETIC IMPROVEMENT . 195 APPENDIX . 198 REFERENCES . 199 LEAF EXPANSION AND PHENOLOGICAL DEVELOPMENT: KEY DETERMINANTS OF SUNFLOWER PLASTICITY, GROWTH AND YIELD V.O. SADRAS AND N. TRAPANI 1 INTRODUCTION . 205 2 PHENOTYPIC PLASTICITY . 206 2.1 YIELD RESPONSES TO WINTER SOWING . 206 2.2 YIELD RESPONSES TO PLANT POPULATION . 208 3 LEAF AREA . 209 3.1 LEAF AREA, LIGHT INTERCEPTION AND CROP GROWTH . 211 3.2 LEAF AREA COMPONENTS . 213 3.3 RESPONSES OF LEAF EXPANSION TO WATER AVAILABILITY . 214 3.3.1 GROWTH AND WATER RELATIONS OF PLANTS IN CONTROLLED ENVIRONMENTS . 215 3.3.2 LEAF EXPANSION IN FIELD-GROWN SUNFLOWER . 217 3.4 EFFECTS OF NITROGEN ON GROWTH AND DEVELOPMENT . 219 3.4.1 EFFECTS OF NITROGEN ON LEAF AREA . 219 3.4.2 LEAF EXPANSION RATE AS AFFECTED BY NITROGEN AVAILABILITY: COMPARISON WITH RATE OF PHOTOSYNTHESIS . 220 4 PHENOLOGICAL DEVELOPMENT . 222 4.1 PHENOLOGICAL PATTERN AND YIELD . 222 4.2 PHYSIOLOGICAL BASIS AND MODELLING OF PHENOLOGICAL DEVELOPMENT . 223 4.2.1 SOWING TO EMERGENCE . 224 4.2.2 EMERGENCE TO ANTHESIS . 224 4.2.3 ANTHESIS TO PHYSIOLOGICAL MATURITY . 226 5 CONCLUSIONS . 226 REFERENCES . 228 COTTON: FACTORS ASSOCIATED WITH ASSIMILATION CAPACITY, FLOWER PRODUCTION, BOLL SET, AND YIELD JJ. HEITHOLT 1 INTRODUCTION . 235 1.1 GENERAL CHARACTERISTICS OF YIELD . 236 1.2 RELATIVE IMPORTANCE OF YIELD COMPONENTS . 237 XII CONTENTS 2 ROOT AND CANOPY DEVELOPMENT . 239 2.1 MORPHOLOGICAL DEVELOPMENTAL STAGES . 240 2.2 SOLAR RADIATION INTERCEPTION . 240 2.3 CANOPY ARCHITECTURE . 241 3 CO 2 -ASSIMILATION CAPACITY . 243 3.1 CANOPY CO 2 -EXCHANGE RATE . 243 3.2 SINGLE-LEAF CO 2 -EXCHANGE RATE . 244 3.3 FRUITING-FORM CO 2 -EXCHANGE RATE . 245 4 FRUITING-FORM FORMATION . 246 4.1 FLORAL BUD (SQUARE) AND BOLL RETENTION . 247 4.2 PHYSIOLOGY OF BOLL RETENTION/SHED . 248 4.3 FLOWER PRODUCTION AND YIELD . 249 4.4 FRUIT LOSS AND YIELD COMPENSATION . 252 4.5 IMPORTANCE OF FRUITING POSITIONS . 253 5 CARBOHYDRATE METABOLISM AND UTILIZATION . 253 5.1 LEAF ASSIMILATE PHYSIOLOGY . 253 5.2 FIBER ASSIMILATE PHYSIOLOGY . 254 6 ENVIRONMENTAL EFFECTS . 254 6.1 TEMPERATURE . 255 6.2 NUTRITION . 255 6.3 CO 2 -ENRICHMENT AND YIELD . 256 7 MONITORING AND MANAGEMENT . 256 7.1 GROWTH REGULATORS . 257 7.2 CROP TERMINATION . 257 8 BREEDING AND YIELD PHYSIOLOGY RESEARCH CHALLENGES . 258 8.1 TREATMENT AND GENOTYPE COMPARISONS . 258 8.2 MANAGEMENT INTENSITY . 259 9 SUMMARY . 259 10 GLOSSARY OF COTTON YIELD PHYSIOLOGY TERMS . 260 REFERENCES . 262 JUTE P. PALIT 1 INTRODUCTION . 271 2 SEED: VIABILITY AND GERMINATION . 273 3 SEEDLING GROWTH AND INITIAL FIELD OPERATIONS . 274 4 ROOT SYSTEM . 275 5 LEAF AREA, LIGHT INTERCEPTION AND CANOPY PHOTOSYNTHESIS . 275 6 CO 2 METABOLISM AND CARBON-USE EFFICIENCY . 279 7 ASSIMILATE TRANSLOCATION AND PARTITIONING . 280 8 PHOTOPERIOD AND FLOWERING . 282 9 IMPROVEMENT OF JUTE PRODUCTIVITY: PROBLEMS AND PROSPECTS . 282 REFERENCES . 283 CONTENTS XIII SUGARCANE S.E. LINGLE 1 INTRODUCTION . 287 1.1 ECONOMIC IMPORTANCE . 287 1.2 BOTANICAL DESCRIPTION . 288 1.3 ANATOMY AND MORPHOLOGY . 288 2 GROWTH AND YIELD DYNAMICS . 292 2.1 STAND ESTABLISHMENT . 292 2.2 GROWTH AND SUGAR ACCUMULATION . 294 3 SUCROSE SYNTHESIS AND PARTITIONING . 299 3.1 PHOTOSYNTHESIS . 299 3.2 TRANSLOCATION AND PARTITIONING . 300 3.3 STEM ANATOMY AND SUCROSE STORAGE . 301 3.4 SUCROSE METABOLISM . 303 4 CONCLUSION: PROSPECTS FOR INCREASING SUCROSE YIELD . 305 REFERENCES . 306 SUGAR BEET T.H. THOMAS 1 INTRODUCTION . 311 2 CROP ESTABLISHMENT AND EARLY DEVELOPMENT . 312 2.1 SEEDLING ESTABLISHMENT . 312 2.2 IDENTIFYING SEED VIGOUR . 313 2.3 IMPROVING SEED PERFORMANCE . 314 2.4 MANIPULATING SEED PRODUCTION . 315 3 LEAF GROWTH AND DEVELOPMENT . 315 4 FIBROUS ROOT DEVELOPMENT . 317 4.1 ROOT GROWTH IN THE SOIL . 317 4.2 ROOT-TO-SHOOT RATIOS . 317 5 GROWTH AND DEVELOPMENT OF THE STORAGE ROOT . 318 5.1 ANATOMICAL DEVELOPMENT OF THE STORAGE ROOT . 318 5.2 SUCROSE ACCUMULATION . 319 6 PHOTOSYNTHESIS AND GROWTH . 320 6.1 CARBON FIXATION IN THE LEAF . 320 6.2 LIGHT AND PHOTOSYNTHESIS . 320 6.3 MODIFICATION OF PHOTOSYNTHETIC EFFICIENCY . 321 7 WATER RELATIONS AND STRESS . 322 7.1 CONTROL OF WATER UPTAKE . 322 7.2 STRESS TOLERANCE . 323 8 ASSIMILATE PARTITIONING . 323 8.1 ASSIMILATE MOVEMENT IN THE PLANT . 323 8.2 ASSIMILATE STORAGE IN THE ROOT . 323 8.3 MODIFYING SUCROSE STORAGE CAPACITY . 325 XIV CONTENTS 9 CROP GROWTH AND SUCROSE ACCUMULATION . 326 10 SUGAR BEET AND CLIMATE CHANGE . 326 11 SUGARBEET IN THE FUTURE . 327 REFERENCES . 328 POTATO J. VOS 1 INTRODUCTION . 333 2 THE BASIC PLAN OF THE POTATO PLANT . 334 3 PHYSIOLOGICAL AGE AND GROWTH VIGOUR . 336 4 INTERRELATIONS BETWEEN NUMBERS OF COMPONENT PLANT PARTS . 338 5 THE PROCESS OF TUBER FORMATION . 339 6 RATE AND DURATION OF DEVELOPMENT PROCESSES . 341 7 RADIATION INTERCEPTION, GROWTH RATE AND TOTAL DRY MATTER PRODUCTION . 343 8 TEMPERATURE AND THE RATE OF GROWTH PROCESSES . 344 9 DRY MATTER DISTRIBUTION . 346 10 NITROGEN NUTRITION AND POTATO PRODUCTION . 347 11 DROUGHT AND POTATO PRODUCTION . 349 12 SECOND GROWTH . 350 13 TUBER SIZE DISTRIBUTION . 350 REFERENCES . 351 COWPEA A.E. HALL 1 INTRODUCTION . 355 2 GRAIN YIELD IN OPTIMAL ENVIRONMENTS . 356 3 GRAIN YIELD UNDER DROUGHT . 360 4 PHOTOPERIOD AND TEMPERATURE EFFECTS ON PHENOLOGY AND RESPONSES TO STRESS . 365 5 CONCLUSIONS . 369 REFERENCES . 369 SOYBEAN [GLYCINE MAX (L.) MERR.] PHYSIOLOGY AND SYMBIOTIC DINITROGEN FIXATION E ZHANG AND D.L. SMITH 1 ORIGIN AND INTRODUCTION . 375 2 PLANT DEVELOPMENT . 376 2.1 GERMINATION AND VEGETATIVE STAGES . 376 2.2 REPRODUCTIVE STAGE . 376 3 PLANT PHYSIOLOGY . 379 CONTENTS XV 3.1 CARBON ASSIMILATION AND METABOLISM . 379 3.2 WATER REQUIREMENT AND WATER STRESS . 381 3.3 MINERAL NUTRITION AND METABOLISM . 383 4 SYMBIOTIC DINITROGEN FIXATION . 386 4.1 DINITROGEN FIXATION . 386 4.2 NODULE FORMATION . 386 4.3 RECOGNITION BETWEEN SYMBIOTIC PARTNERS . 387 4.4 BIOCHEMISTRY AND PHYSIOLOGY . 388 4.5 GENERAL GENETIC CHARACTERISTICS . 390 4.6 FACTORS AFFECTING SOYBEAN DINITROGEN FIXATION . 391 REFERENCES . 394 PHYSIOLOGICAL CONTROL OF GROWTH AND YIELD IN WHITE CLOVER J.R. CARADUS AND M.J.M. HAY 1 GROWTH FORM OF WHITE CLOVER . 401 1.1 CLONAL GROWTH . 401 1.2 EXCEPTIONS TO CLONAL GROWTH . 402 1.3 PLAGIOTROPIC HABIT . 402 1.4 FLOWERING . 402 2 PHYSIOLOGICAL CONTROL OF GROWTH . 403 2.1 ENVIRONMENTAL EFFECTS . 405 2.1.1 TEMPERATURE . 405 2.1.2 LIGHT . 405 2.1.3 NUTRIENTS . 407 2.1.4 NITROGEN FIXATION . 408 2.1.5 MOISTURE . 409 2.1.6 PHYSICAL IMPEDANCE . 410 2.1.7 DEFOLIATION . 410 2.1.8 BIOTIC INFLUENCES . 411 2.1.9 OZONE AND ULTRAVIOLET LIGHT . 412 2.1.10 CARBON DIOXIDE CONCENTRATION . 412 2.2 CORRELATIVE EFFECTS . 413 2.2.1 AGE OF PHYTOMER . 413 2.2.2 PRESENCE OF ROOT, LEAF, FLOWER OR BRANCH AT A PHYTOMER . 414 2.2.3 GENOTYPE . 415 REFERENCES . 415 PHYSIOLOGICAL CONTROL OF ALFALFA GROWTH AND YIELD J. J. VOLENEC 1 INTRODUCTION . 425 2 ALFALFA YIELD COMPONENT ANALYSIS . 426 3 FACTORS INFLUENCING ALFALFA YIELD COMPONENTS . 428 3.1 ALFALFA PERSISTENCE . 428 3.2 MASS PER SHOOT . 432 XVI CONTENTS 3.3 SHOOTS PER PLANT . 437 4 CONCLUSIONS AND FUTURE PROSPECTS . 438 REFERENCES . 439 PHYSIOLOGICAL CONTROL OF FORAGE GRASS YIELD AND GROWTH A.R. OVERMAN AND D.M. WILSON 1 INTRODUCTION . 443 2 DYNAMIC MODELS . 444 2.1 PROBABILITY . 444 2.2 EXTENDED PROBABILITY . 445 2.3 PHENOMENOLOGICAL . 445 3 SEASONAL MODELS . 447 3.1 LOGISTIC . 447 3.2 EXTENDED LOGISTIC . 448 3.3 MULTIPLE LOGISTIC . 449 3.4 EXTENDED MULTIPLE LOGISTIC . 450 3.5 HARVEST INTERVAL AND WATER AVAILABILITY . 451 4 EXAMPLES . 452 4.1 WARM-SEASON PERENNIAL . 452 4.2 WARM-SEASON ANNUAL . 457 4.3 COOL-SEASON ANNUAL . 460 4.4 HARVEST INTERVAL . 463 5 SUMMARY . 466 REFERENCES . 470 SUBJECT INDEX . 475
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genre	(DE-588)4143413-4 Aufsatzsammlung gnd-content
genre_facet	Aufsatzsammlung
id	DE-604.BV012186619
illustrated	Illustrated
indexdate	2024-08-18T00:05:03Z
institution	BVB
isbn	3540644776
language	German
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-008259210
oclc_num	468442875
open_access_boolean
owner	DE-M49 DE-BY-TUM DE-11 DE-188
owner_facet	DE-M49 DE-BY-TUM DE-11 DE-188
physical	XVI, 504 S. Ill., graph. Darst.
publishDate	1999
publishDateSearch	1999
publishDateSort	1999
publisher	Springer
record_format	marc
spelling	Crop yield physiology and processes Donald L. Smith ; Chantal Hamel (ed.) Berlin [u.a.] Springer 1999 XVI, 504 S. Ill., graph. Darst. txt rdacontent n rdamedia nc rdacarrier Cultures - Rendements ram Physiologie végétale ram Ernteertrag (DE-588)4015358-7 gnd rswk-swf Pflanzenphysiologie (DE-588)4045580-4 gnd rswk-swf Nutzpflanzen (DE-588)4042838-2 gnd rswk-swf Ertragsbildung (DE-588)4349389-0 gnd rswk-swf Ertragsphysiologie (DE-588)4152916-9 gnd rswk-swf (DE-588)4143413-4 Aufsatzsammlung gnd-content Ertragsphysiologie (DE-588)4152916-9 s DE-604 Nutzpflanzen (DE-588)4042838-2 s Pflanzenphysiologie (DE-588)4045580-4 s Ertragsbildung (DE-588)4349389-0 s Ernteertrag (DE-588)4015358-7 s Smith, Donald L. 1953- Sonstige (DE-588)120228041 oth DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008259210&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Crop yield physiology and processes Cultures - Rendements ram Physiologie végétale ram Ernteertrag (DE-588)4015358-7 gnd Pflanzenphysiologie (DE-588)4045580-4 gnd Nutzpflanzen (DE-588)4042838-2 gnd Ertragsbildung (DE-588)4349389-0 gnd Ertragsphysiologie (DE-588)4152916-9 gnd
subject_GND	(DE-588)4015358-7 (DE-588)4045580-4 (DE-588)4042838-2 (DE-588)4349389-0 (DE-588)4152916-9 (DE-588)4143413-4
title	Crop yield physiology and processes
title_auth	Crop yield physiology and processes
title_exact_search	Crop yield physiology and processes
title_full	Crop yield physiology and processes Donald L. Smith ; Chantal Hamel (ed.)
title_fullStr	Crop yield physiology and processes Donald L. Smith ; Chantal Hamel (ed.)
title_full_unstemmed	Crop yield physiology and processes Donald L. Smith ; Chantal Hamel (ed.)
title_short	Crop yield
title_sort	crop yield physiology and processes
title_sub	physiology and processes
topic	Cultures - Rendements ram Physiologie végétale ram Ernteertrag (DE-588)4015358-7 gnd Pflanzenphysiologie (DE-588)4045580-4 gnd Nutzpflanzen (DE-588)4042838-2 gnd Ertragsbildung (DE-588)4349389-0 gnd Ertragsphysiologie (DE-588)4152916-9 gnd
topic_facet	Cultures - Rendements Physiologie végétale Ernteertrag Pflanzenphysiologie Nutzpflanzen Ertragsbildung Ertragsphysiologie Aufsatzsammlung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=008259210&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT smithdonaldl cropyieldphysiologyandprocesses

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