Verfügbarkeit: Good management practices for the cane sugar industry

Good management practices for the cane sugar industry:

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Bibliographische Detailangaben
Format:	Buch
Sprache:	English
Veröffentlicht:	Berlin Bartens 2013
Schlagworte:	Zuckerrohranbau Zuckerrohrverarbeitung
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	Literaturangaben
Beschreibung:	608 Seiten Ill., graph. Darst. 25 cm, 1400 g
ISBN:	9783870401498

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Datensatz im Suchindex

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adam_text	IMAGE 1 TABLE O F CONTENTS FOREWORD PREFACE ABOUT T H E AUTHORS ACKNOWLEDGEMENTS ABBREVIATIONS UNITS TECHNICAL GLOSSARY PART 1: SUGARCANE AGRICULTURE 1 SUGARCANE A N D ITS E N V I R O N M E N T 1.1 INTRODUCTION 1.2 THE CHANGING GLOBAL SUGARCANE LANDSCAPE 1.2.1 SUGAR SUPPLY A N D D E M A N D DYNAMICS 1.2.2 TRADE LIBERALIZATION 1.2.3 ECONOMIC DEVELOPMENT 1.2.4 BIOFUEL A N D RENEWABLE ENERGY 1.2.5 TECHNOLOGICAL CHANGE 1.2.6 GLOBAL WARMING A N D CLIMATE CHANGE 1.2.7 ENVIRONMENTAL ISSUES 1.3 THE IMPACTS OF SUGARCANE PRODUCTION O N T H E ENVIRONMENT 1.3.1 BIODIVERSITY LOSS 1.3.2 WATER RESOURCE U S E 1.3.3 POLLUTION OF WATER SOURCES 1.3.4 SOIL LOSS IMPACTS 1.3.5 SOIL DEGRADATION 1.3.6 AIR QUALITY IMPACTS 5 1.3.7 SOCIAL A N D COMMUNITY IMPACTS 4 6 1.3.8 SUMMARY OF GOOD MANAGEMENT 7 PRACTICES 4 7 1.4 THE SOIL-PLANT-CLIMATE CONTINUUM 5 1 9 1.4.1 CLIMATE 5 1 1.4.2 SOILS 5 3 13 1.5 PHYSIOLOGY OF T H E SUGARCANE PLANT 5 4 1.5.1 BRIEF OVERVIEW 5 4 22 1.5.2 MAIN GROWTH STAGES IN SUGARCANE 5 6 1.5.3 PLANT CHARACTERISTICS T H A T IMPACT O N 23 CULTIVAR PERFORMANCE 56 1.6 SUGARCANE CULTIVARS 5 9 24 1.6.1 CULTIVARS T H E KEY TO ECONOMIC SUSTAINABILITY 5 9 1.6.2 NEW EMERGING DEVELOPMENTS 59 33 1.6.3 SUGARCANE TAXONOMY 6 0 1.6.4 CENTERS OF ORIGIN 6 0 35 1.6.5 HYBRIDIZATION 6 1 35 1.6.6 DISEASES 6 1 1.6.7 PESTS 6 1 35 1.7 CULTIVAR MANAGEMENT 62 35 1.7.1 IDENTIFICATION 62 36 1.7.2 AGRONOMIC CHARACTERISTICS 62 36 1.7.3 MAIN COMPONENTS OF YIELD 6 3 37 1.7.4 HARVESTING A N D TRANSPORT 6 3 37 1.7.5 MILLING QUALITY CHARACTERISTICS (SEE 3 7 ALSO SECTION 2) 6 3 3 8 1.7.6 PLANT BREEDING A N D SELECTION 6 4 1.7.7 FIELD A N D PLANTING HYGIENE 6 4 39 1.7.8 SEEDCANE MANAGEMENT 6 4 39 1.8 CONCLUSIONS 66 4 0 1.9 REFERENCES 6 8 4 1 43 2 THE SOIL A N D ITS E N V I R O N M E N T 7 3 4 4 2.1 WHY IS KNOWLEDGE OF SOIL IMPORTANT? 7 3 45 2.2 ORIGIN OF SOILS A N D THEIR DISTRIBUTION 7 3 HTTP://D-NB.INFO/1035566079 IMAGE 2 CONTENTS 2 . 2 . 1 SOIL COMPOSITION A N D FUNCTIONS 7 3 2 . 2 . 2 WEATHERING AGENTS CONTRIBUTING T O SOIL FORMATION 7 4 2 . 2 . 3 SOIL DEVELOPMENT 7 5 2 . 3 RECOGNIZING I M P O R T A N T SOIL PROPERTIES 7 8 2 . 4 IMPACT OF CLAY CONTENT O N AGRONOMIC MANAGEMENT 8 3 2 . 5 CLASSIFYING SOILS 8 6 2 . 6 USE OF SOIL SPECIFIC M A N A G E M E N T GUIDELINES 9 1 2 . 7 THE ROLE OF SOIL MAPPING 9 3 2 . 7 . 1 CHOOSING A N APPROPRIATE CLASSIFICATION SYSTEM 9 4 2 . 7 . 2 POTENTIAL BENEFITS OF SOIL SURVEY MAPS 9 4 2 . 7 . 3 RANGE OF SOIL MAPPING OPTIONS 9 5 2 . 8 SOIL HEALTH ISSUES 9 5 2 . 8 . 1 THE NEW EMERGING VIEW OF SOIL HEALTH 9 5 2 . 8 . 2 YIELD PLATEAU ASSESSMENTS 9 6 2 . 8 . 3 PAIRED SITE OUTCOMES 9 6 2 . 8 . 4 LOSS OF ORGANIC M A T T E R 9 7 2 . 8 . 5 ACIDIFICATION 9 8 2 . 8 . 6 SOIL SALINITY A N D SODICITY 9 9 2 . 8 . 7 SOIL COMPACTION 9 9 2 . 9 M A N A G E M E N T STRATEGIES FOR IMPROVING SOIL HEALTH 1 0 0 2 . 9 . 1 W H A T CONSTITUTES A HEALTHY SOIL? 1 0 1 2 . 9 . 2 GOOD MANAGEMENT PRACTICES T O IMPROVE SOIL HEALTH 1 0 1 2 . 9 . 3 GREEN M A N U R I N G 1 0 2 2 . 9 . 4 BIOREMEDIAL AMELIORATION WITH ORGANIC A M E N D M E N T S 1 0 5 2 . 9 . 5 M I N I M U M OR REDUCED TILLAGE 1 0 7 2 . 9 . 6 MANAGING SOIL ACIDIFICATION 1 0 7 2 . 9 . 7 TRASH M A N A G E M E N T 1 0 7 2 . 9 . 8 MANAGING SOIL COMPACTION 1 1 1 2 . 9 . 9 FINANCIAL, SOCIAL A N D ENVIRONMENTAL COSTS OF IMPROVING SOIL HEALTH 1 1 1 2 . 1 0 CONCLUSIONS 1 1 3 2 . 1 1 REFERENCES 1 1 3 3 SUGARCANE CROPPING SYSTEM 1 1 7 3 . 1 LAND USE PLANNING A N D CONSERVATION 1 1 7 3 . 1 . 1 I N T R O D U C T I O N 1 1 7 3 . 1 . 2 LAND EVALUATION 1 1 7 3 . 1 . 3 THE LAND USE PLAN 1 2 3 3 . 1 . 4 M O N I T O R I N G A N D EVALUATION PLAN 1 2 7 3 . 2 CROP ESTABLISHMENT 1 2 8 3 . 2 . 1 I N T R O D U C T I O N 1 2 8 3 . 2 . 2 CROP ERADICATION 1 2 9 3 . 2 . 3 SEEDBED PREPARATION 1 3 2 1 5 3.2.4 PLANTING 134 3.2.5 RATOON MANAGEMENT 1 3 8 3.3 REFERENCES 1 4 3 4 W E E D CONTROL 145 4.1 BACKGROUND 145 4.2 THE N E E D FOR WEED CONTROL IN SUGARCANE 145 4.3 WEEDS OF SUGARCANE 146 4.3.1 WEED GROUPS 146 4.3.2 WEEDS ASSOCIATED WITH POOR GROWTH AREAS 148 4.3.3 SOME PROBLEM SPECIES 149 4.4 NON-CHEMICAL WEED CONTROL METHODS 150 4.4.1 PHYSICAL 150 4.4.2 HAND WEEDING A N D H A N D HOEING 1 5 1 4.4.3 MECHANICAL CULTIVATION 152 4.5 CHEMICAL WEED CONTROL 152 4.5.1 BROAD CATEGORIES OF HERBICIDES A N D THEIR USE 152 4.5.2 CHEMICAL GROUPS OF HERBICIDES 1 5 3 4.5.3 TIMING OF HERBICIDE APPLICATION 155 4.5.4 FATE OF HERBICIDES IN T H E ENVIRONMENT 157 4.5.5 CHOICE OF HERBICIDE TREATMENT 159 4.5.6 FORMULATIONS 160 4.6 APPLICATION OF HERBICIDES 160 4.6.1 APPLICATION EQUIPMENT 160 4.6.2 WEATHER CONDITIONS A N D DRIFT CONTROL 162 4.6.3 CHEMIGATION 162 4.6.4 HERBICIDE REGULATION 163 4.6.5 RESPONSIBLE USE OF HERBICIDES 1 6 3 4.7 INTEGRATED WEED CONTROL 164 4.8 WEED CONTROL PLANNING 164 4.9 OPTIMIZING PERFORMANCE A N D MINIMIZING NEGATIVE IMPACTS 164 4.10 REFERENCES 168 5 SUGARCANE N U T R I T I O N A N D FERTILIZATION 1 6 9 5.1 INTRODUCTION 169 5.1.1 NUTRIENTS REQUIRED BY SUGARCANE 169 5.1.2 PRINCIPLES OF NUTRIENT MANAGEMENT 170 5.1.3 AMOUNTS OF NUTRIENTS TAKEN UP BY SUGARCANE 1 7 1 5.1.4 IMPACT OF CLIMATE O N N U T R I E N T UPTAKE 1 7 1 5.1.5 SOIL FACTORS AFFECTING NUTRIENT SUPPLY 173 5.1.6 CLAY MINERALS 173 5.1.7 CATION EXCHANGE CAPACITY 1 7 3 5.1.8 SOIL ORGANIC M A T T E R 174 5.1.9 SOIL PH, ACIDITY A N D ALKALINITY 174 IMAGE 3 1 6 CONTENTS 5.1.10 MOVEMENT OF NUTRIENTS IN T H E SOIL 175 6.2.2 SOIL PHYSICAL PROPERTIES AFFECTING 5.2 NITROGEN (N) 176 IRRIGATION 222 5.2.1 IMPORTANCE OF NITROGEN 176 6.2.3 SOIL TEXTURE AS A FACTOR IN CHOICE OF 5.2.2 THE NITROGEN CYCLE 176 IRRIGATION M E T H O D 2 2 3 5.2.3 NITROGEN LOSSES 1 7 8 6.2.4 MANAGEMENT ALLOWABLE DEFICIT 2 2 4 5.2.4 FACTORS AFFECTING THE NITROGEN 6.2.5 MOISTURE EXTRACTION P A T T E R N S 2 2 5 REQUIREMENT OF SUGARCANE 179 6.2.6 SOILS A N D WATER QUALITY 225 5.2.5 HOW TO ADOPT SOIL SPECIFIC NITROGEN 6.3 IRRIGATION APPLICATION SYSTEMS 2 2 5 RECOMMENDATIONS 1 8 3 6.3.1 LOW PRESSURE SYSTEMS: SURFACE 5.2.6 NITROGEN FERTILIZERS 186 IRRIGATION 225 5.2.7 MANAGING N FERTILIZER 1 8 7 6.3.2 MEDIUM PRESSURE SYSTEMS: DRIP 5.3 PHOSPHORUS (P) 1 9 1 IRRIGATION 227 5.3.1 THE IMPORTANCE O F PHOSPHORUS 1 9 1 6.3.3 MEDIUM PRESSURE MECHANIZED 5.3.2 PHOSPHORUS CYCLE IN T H E SOIL 192 SYSTEMS: CENTER PIVOT IRRIGATION 230 5.3.3 FACTORS AFFECTING PHOSPHORUS 6.3.4 MEDIUM PRESSURE MECHANIZED AVAILABILITY 1 9 3 SYSTEMS: LINEAR SYSTEMS (MOVING 5.3.4 PHOSPHATE CARRIERS 1 9 4 LATERALS) 2 3 1 5.3.5 MANAGING T H E P REQUIREMENT OF 6.3.5 HIGH PRESSURE MANUALLY MOVED SUGARCANE 1 9 4 SYSTEMS: IMPACT SPRINKLERS 232 5.4 POTASSIUM (K) 196 6.3.6 VERY HIGH PRESSURE SELF-TRAVELER 5.4.1 IMPORTANCE OF POTASSIUM 196 SYSTEMS: TRAVELLING GUNS/RAIN G U N S 2 3 4 5.4.2 POTASSIUM CYCLE IN T H E SOIL 197 6.4 CHOICE OF IRRIGATION M E T H O D 2 3 5 5.4.3 FACTORS AFFECTING POTASSIUM 6.4.1 ECONOMIC ASPECTS 2 3 5 AVAILABILITY 197 6.4.2 SUMMARY OF FACTORS INFLUENCING T H E 5.4.4 POTASSIUM SOURCES 199 SELECTION OF A PARTICULAR IRRIGATION 5.4.5 MANAGING T H E K REQUIREMENT OF SYSTEM 236 SUGARCANE 2 0 0 6.4.3 ENERGY ASPECTS 236 5.5 CALCIUM (CA) 2 0 3 6.5 IRRIGATION PERFORMANCE 2 3 7 5.6 MAGNESIUM (MG) 2 0 3 6.5.1 EFFICIENCY 237 5.7 SULFUR (S) 205 6.5.2 UNIFORMITY 239 5.8 SILICON (SI) 2 0 6 6.5.3 IMPROVEMENT OF IRRIGATION EFFICIENCY 240 5.8.1 BENEFITS FROM SILICON T R E A T M E N T 2 0 7 6.6 SCHEDULING 2 4 3 5.8.2 SOIL SI SOURCE/SINK POOLS 2 0 7 6.7 POTENTIAL IMPACT O F IRRIGATION 5.8.3 MANAGING SILICON NUTRITION 2 0 8 PRACTICES O N T H E ENVIRONMENT, 5.8.4 SILICON FERTILIZER SOURCES FOR COMMUNITIES A N D HEALTH 2 4 4 SUGARCANE 2 0 8 6.7.1 ENVIRONMENTAL IMPACT ASSESSMENT 5.8.5 SILICON LEAF DEFICIENCY SYMPTOMS 2 0 9 (EIA) FOR IRRIGATION DEVELOPMENTS 245 5.9 MICRONUTRIENTS 209 6.7.2 ENVIRONMENTAL MANAGEMENT SYSTEM 5.10 GOOD M A N A G E M E N T PRACTICES FOR (EMS) FOR SUGARCANE DEVELOPMENTS 2 4 5 MINIMIZING ENVIRONMENTAL IMPACT 2 1 1 6.7.3 EFFECTS ON COMMUNITIES 2 4 5 5.11 GENERAL CONCLUSIONS 212 6.7.4 EFFECTS ON HEALTH 246 5.12 REFERENCES 2 1 3 6.8 WATER SUPPLY A N D HYDROLOGY 2 4 6 6.9 REFERENCES 2 4 8 6 IRRIGATION 2 1 9 6 . 1 SUGARCANE WATER DEMAND 219 7 DRAINAGE, IRRIGATION WATER QUALITY 6.1.1 CROP WATER REQUIREMENTS (CWR) 219 A N D SALT AFFECTED SOILS 2 5 1 6.1.2 IRRIGATION REQUIREMENTS IN RELATION 7.1 INTRODUCTION 2 5 1 TO THE SOIL WATER BALANCE 2 2 0 7.2 DRAINAGE OF AGRICULTURAL LANDS 252 6.2 INFLUENCE OF TYPE OF SOIL O N IRRIGATION 2 2 1 7.3 TYPES OF DRAINAGE 252 6.2.1 SOIL MORPHOLOGY 2 2 1 7.3.1 INTERNAL DRAINAGE O F SOILS 252 IMAGE 4 CONTENTS 17 7.3.2 INUNDATION 2 5 3 7.3.3 AERATION 2 5 4 7.4 WATER TABLE MANAGEMENT 2 5 4 7.5 DRAINAGE METHODS 256 7.5.1 SURFACE DRAINAGE 256 7.5.2 SUBSURFACE DRAINAGE 2 5 8 7.5.3 MOLE DRAINS 259 7.6 DRAINAGE DESIGN 2 6 1 7.6.1 SURFACE DRAINAGE DESIGN 2 6 1 7.6.2 SUBSURFACE DRAINAGE DESIGN 2 6 3 7.6.3 PUMPED OUTFALLS 266 7.7 FLOOD CONTROL 266 7.8 WATER QUALITY 266 7.9 WATER BLENDING 2 6 8 7.10 WATER TABLE DEPTH 269 7.11 SALT AFFECTED SOILS 270 7.12 SALINITY DOMINATED SOILS 270 7.12.1 ORIGIN OF SALINE SOILS 2 7 0 7.12.2 MEASUREMENT OF SALINITY 2 7 1 7.12.3 INFLUENCE OF SALINITY O N CROP YIELD 2 7 1 7.13 RECLAMATION OF SALINE SOILS 272 7.14 IRRIGATION M E T H O D A N D SALINITY CONTROL 2 7 3 7.15 SODICITY DOMINATED SOILS 2 7 3 7.16 RECLAMATION OF SODIC SOILS 276 7.17 SALINITY, SODICITY A N D CANE YIELD 2 7 7 7.18 IMPACT OF DRAINAGE A N D SALINITY O N THE ENVIRONMENT 2 7 8 7.19 IMPACT OF DRAINAGE O N HEALTH 279 7.20 GOOD MANAGEMENT PRACTICES 2 8 0 7.20.1 PRE-IMPLEMENTATION: SURVEY A N D PLANNING REQUIREMENTS FOR DRAINAGE 280 7.20.2 POST-IMPLEMENTATION: IDENTIFICATION O F DRAINAGE, SALINITY A N D SODICITY PROBLEMS 280 7.20.3 MONITORING OF DRAINAGE, SALINITY A N D SODICITY PROBLEMS 2 8 1 7.20.4 MITIGATION MEASURES 2 8 1 7.21 REFERENCES 282 8 DISEASE CONTROL 2 8 5 8.1 INTRODUCTION 2 8 5 8.2 SUGARCANE QUARANTINE 286 8.3 INTEGRATED DISEASE CONTROL IN SUGARCANE 2 8 7 8.4 VARIETAL RESISTANCE 287 8.5 SEEDCANE HEALTH 2 8 8 8.6 EFFECTIVE CROP ERADICATION 290 8.7 ROGUING 2 9 0 8.8 O T H E R CULTURAL METHODS OF DISEASE CONTROL 2 9 1 8.9 SUGARCANE INDUSTRY DISEASE CONTROL SCHEMES 2 9 1 8.10 MONITORING DISEASE INCIDENCE 2 9 1 8.10.1 MONITORING DISEASES IN SEEDCANE NURSERIES 2 9 1 8.10.2 MONITORING DISEASES IN COMMERCIAL FIELDS 292 8.11 CHEMICAL CONTROL 292 8.12 SOME COMMON DISEASES OF IMPORTANCE 292 8.12.1 RATOON STUNTING DISEASE (RSD) 2 9 3 8.12.2 SMUT 2 9 3 8.12.3 MOSAIC 2 9 4 8.12.4 RUST 295 8.12.5 RED R O T 295 8.13 DISEASES IN SELECTED REGIONS 296 8.13.1 AUSTRALIA 297 8.13.2 PAPUA-NEW GUINEA 297 8.13.3 THE FAR EAST A N D INDIA 297 8.13.4 AFRICA 297 8.13.5 THE AMERICAS 297 8.14 THE WAY FORWARD TOWARDS SUSTAINABLE CONTROL OF DISEASES 297 8.15 SUMMARY 2 9 8 8.16 REFERENCES 300 9 PEST CONTROL 3 0 1 9.1 INTRODUCTION 3 0 1 9.1.1 INTEGRATED P E S T MANAGEMENT 302 9.1.2 PESTICIDES 302 9.1.3 STEPS IN MANAGING A PEST PROBLEM 305 9.2 STALK BORERS 3 0 8 9.2.1 TOP BORER, SCIRPOPHAGA EXCERPTALIS 3 0 8 9.2.2 SUGARCANE STEM BORERS, DIATRAEA SPECIES 309 9.2.3 AFRICAN SUGARCANE BORER, ELDANA SACCHARINA 3 1 1 9.2.4 O T H E R STALK BORERS 312 9.3 WHITE GRUBS 3 1 5 9.3.1 CANEGRUBS IN AUSTRALIA 315 9.3.2 O T H E R WHITE GRUBS A N D SOIL INSECT PESTS 317 9.4 SAP FEEDERS 3 1 8 9.4.1 ABOVE GROUND SAP FEEDERS 3 1 8 9.4.2 BELOW GROUND SAP FEEDERS 319 9.5 LEAF FEEDERS 3 2 1 9.6 NEMATODES 322 9.6.1 CONTROL STRATEGIES 3 2 3 9.7 VERTEBRATES 324 IMAGE 5 18 CONTENTS 9.8 SOCIAL, FINANCIAL A N D ENVIRONMENTAL 1 1 HARVESTING A N D HAULAGE 3 5 5 COSTS OF PEST CONTROL 325 11.1 HARVESTING 355 9.8.1 SOCIAL COST OF PRACTICES USED T O 11.1.1 PRE-HARVEST 3 5 5 CONTROL PESTS 3 2 5 11.1.2 MANUAL SYSTEM 355 9.8.2 FINANCIAL COST OF PESTS 3 2 5 11.1.3 MECHANICAL WHOLE STICK 3 5 8 9.8.3 ENVIRONMENTAL COST O F PRACTICES USED 11.1.4 CHOPPER HARVESTERS 359 TO CONTROL PESTS 3 2 6 11.1.5 FACTORS AFFECTING HARVESTING A N D 9.9 SUMMARY 3 2 6 LOADING 3 6 0 9.10 REFERENCES 3 2 7 11.1.6 SUMMARY OF SOCIAL, FINANCIAL A N D ENVIRONMENTAL RISKS A N D BENEFITS 1 0 CHEMICAL RIPENING, FLOWER O F EACH PRACTICE 362 SUPPRESSION A N D GROWTH 3 3 1 11.2 HAULAGE 3 6 3 10.1 INTRODUCTION 3 3 1 11.2.1 HAULAGE SYSTEMS 3 6 3 10.2 BACKGROUND 3 3 1 11.2.2 TRANSLOADING 366 10.3 NATURAL RIPENING 332 11.2.3 FACTORS AFFECTING HAULAGE SYSTEMS 367 10.3.1 TEMPERATURE 3 3 2 11.2.4 SUMMARY OF SOCIAL, FINANCIAL A N D 10.3.2 AGE 3 3 4 ENVIRONMENTAL RISKS A N D BENEFITS 10.3.3 WATER STRESS 3 3 5 O F EACH PRACTICE 3 7 0 10.4 CHEMICAL RIPENING 3 3 6 11.3 REFERENCES 372 10.4.1 MILLING PERIODS A N D CROP CHARACTERISTICS 3 3 6 12 AGROCHEMICALS A N D FARM SAFETY 3 7 5 10.4.2 IDENTIFYING CROPS T H A T ARE SUITABLE 12.1 AGROCHEMICALS 3 7 5 FOR CHEMICAL RIPENING 3 3 7 12.1.1 BACKGROUND 3 7 5 10.4.3 CHEMICALS USED FOR RIPENING 3 3 7 12.1.2 PESTICIDE REGULATION 376 10.4.4 CULTIVAR RESPONSES TO CHEMICAL 12.1.3 AGROCHEMICALS USED IN SUGARCANE RIPENING 3 3 9 PRODUCTION 380 10.4.5 METHODS O F APPLYING CHEMICAL 12.1.4 ENVIRONMENTAL A N D SAFETY CONCERNS RIPENERS 3 4 0 WITH SUGARCANE PESTICIDES 3 8 0 10.4.6 FACTORS INFLUENCING CROP RESPONSE T O 12.1.5 MINIMIZING NEGATIVE IMPACTS 3 8 1 CHEMICAL RIPENERS 3 4 1 12.1.6 STANDARDS A N D CERTIFICATION 3 8 6 10.5 FLOWERING 3 4 4 12.2 FARM SAFETY 386 10.5.1 THE OCCURRENCE OF FLOWERING 3 4 4 12.2.1 BACKGROUND 3 8 6 10.5.2 SUPPRESSION OF T H E FLOWERING PROCESS 3 4 5 12.2.2 SAFETY MANAGEMENT SYSTEMS (ALSO 10.6 POSSIBLE ENVIRONMENTAL IMPACTS OF SEE PART 3, CHAPTER 3.) 3 8 7 CHEMICALS USED FOR RIPENING A N D 12.3 REFERENCES 3 9 2 FLOWER CONTROL 346 10.6.1 EFFECTS OF SOME RIPENING CHEMICALS 1 3 BIOMASS MANAGEMENT: ETHANOL O N SOIL ORGANISMS 3 4 6 A N D ELECTRICITY GENERATION 3 9 5 10.6.2 CHEMICAL RELEASE INTO T H E 13.1 CO-PRODUCTS: ETHANOL A N D BIOMASS ENVIRONMENT 3 4 7 FOR ELECTRICITY PRODUCTION 3 9 5 10.7 POTENTIAL IMPACTS OF GROWTH 13.1.1 INTRODUCTION 3 9 5 REGULATORS O N ECONOMICS A N D 13.1.2 ETHANOL 396 POSSIBLE COLLATERAL DAMAGE 3 4 8 13.1.3 POWER GENERATION 4 0 0 10.7.1 ECONOMIC IMPACTS 3 4 8 13.1.4 CELLULOSE TECHNOLOGY 4 0 0 10.7.2 POTENTIAL SOCIAL HEALTH IMPACTS 3 4 8 13.2 VARIETY BREEDING FOR ETHANOL A N D 10.8 MITIGATING FACTORS IMPACTING O N T H E BIOMASS 4 0 1 EFFECTIVE USE O F RIPENERS A N D 13.2.1 RECENT DIRECTIONS IN PLANT BREEDING 4 0 1 ETHEPHON TO CONTROL FLOWERING 3 4 9 13.2.2 FUTURE STRATEGIES IN PLANT BREEDING 4 0 2 10.9 CONCLUSION 3 5 0 13.3 TOWARDS GOOD PRE-HARVEST FIELD 10.10 REFERENCES 352 MANAGEMENT PRACTICES 4 0 3 IMAGE 6 CONTENTS 13.3.1 ETHANOL 4 0 3 14.6.1 VEHICLE SCHEDULING 13.3.2 BIOMASS FOR COGENERATION THROUGH 14.6.2 VEHICLE SELECTION GREEN CANE HARVESTING 4 0 4 14.6.3 ZONE PLACEMENT 13.3.3 BENEFITS A N D PROBLEMS ARISING FROM 14.6.4 SHORTCUTS CONVERTING FROM B U R N T TO GREEN 14.6.5 COMPACTION CANE HARVESTING 4 0 5 14.7 SUPPLY CHAIN 13.3.4 QUANTITIES OF TRASH 4 0 6 14.8 BIO-ENERGY 13.3.5 QUALITY O F CANE RESIDUES 4 0 7 14.9 MISCELLANEOUS 13.4 HARVESTING TECHNIQUES TO MAXIMIZE 14.9.1 CARBON FOOTPRINT BIOMASS DELIVERIES TO T H E FACTORY 4 0 8 14.9.2 GIS APPLICATIONS 13.4.1 TRASH COLLECTION FROM CHOPPER 14.10 CONCLUSIONS HARVESTED CANE 4 0 8 14.11 REFERENCES 13.4.2 COSTS OF SWITCHING FROM B U R N T T O GREEN HARVESTED CANE 4 1 0 13.5 VINASSE: COMPOSITION, UTILIZATION A N D PART 2 : SUGARCANE PROCESSING EFFECTS O N SOILS 4 1 1 MANAGEMENT 13.5.1 COMPOSITION O F VINASSE 4 1 1 13.5.2 DIRECT APPLICATION IN IRRIGATION WATER 1 CANE PROCESSING, PRODUCTION O R BY TANKER TRUCKS 4 1 1 OF SUGAR, ETHANOL A N D POWER 13.5.3 EFFECT OF VINASSE O N CANE YIELD A N D 1.1 CANE QUALITY QUALITY 4 1 2 1 . 1 . 1 EFFECT OF CANE QUALITY O N RECOVERABLE 13.5.4 EFFECT OF VINASSE APPLICATION O N SOILS 4 1 3 SUGAR A N D CAPACITY 13.5.5 USE OF VINASSE IN LAND RECLAMATION 4 1 4 1.1.2 MANAGEMENT OF CANE SUPPLY 13.5.6 VINASSE EVAPORATION 4 1 4 1.1.3 CANE DELAYS 13.5.7 O T H E R MECHANISMS FOR DISPOSAL OF 1.1.4 EFFECT OF CANE DELAYS O N RECOVERY VINASSE 4 1 6 1.1.5 CANE RECEIPT A N D PAYMENT 13.6 SOCIAL A N D ENVIRONMENTAL RISKS OF 1.1.6 DISTRIBUTION OF PROCEEDS BETWEEN ETHANOL A N D BIOMASS PRODUCTION 4 1 6 MILLERS A N D GROWERS 13.6.1 ETHANOL 4 1 6 1.2 CLEANING OF CANE 13.6.2 BIOMASS PRODUCTION 4 1 8 1.2.1 CANE WASHING 13.7 CONCLUSIONS A N D T H E WAY FORWARD 4 1 9 1.2.2 MANAGEMENT OF WATER CIRCUIT 13.8 REFERENCES 4 1 9 1.2.3 1.2.4 DRY CLEANING REMOVAL OF TOPS A N D LEAVES 14 DECISION S U P P O R T SYSTEMS FOR 1.2.5 REMOVAL OF ROCKS A N D SOIL SUGARCANE P R O D U C T I O N 1 . 3 WATER USE A N D RECYCLING MANAGERS 4 2 1 1.3.1 FACTORY WATER BALANCE 14.1 INTRODUCTION 4 2 1 1.3.2 CONDENSATE A N D PROCESS WATER USAGE 14.2 DECISION SUPPORT SYSTEMS 4 2 2 1.3.3 FACTORY COOLING WATER SYSTEMS 14.3 CROP MODELS 4 2 3 1.3.4 BOILER ASH SCRUBBER SYSTEMS 14.4 CROP PRODUCTION 4 2 3 1.3.5 SEGREGATION OF STREAMS 14.4.1 CANEPRO SQR 4 2 4 1.4 TECHNOLOGY CHOICES 14.4.2 CULTIVARS 4 2 5 1.4.1 EXTRACTION 14.4.3 NUTRITION 4 2 5 1.4.2 CLARIFICATION 14.4.4 HERBICIDES 4 2 5 1.4.3 EVAPORATION 14.4.5 PESTICIDE 4 2 6 1.4.4 SYRUP CLARIFICATION 14.4.6 IRRIGATION 4 2 6 1.4.5 PAN BOILING 14.5 HARVESTING 4 2 6 1.4.6 CENTRIFUGALS 14.5.1 HARVESTING SCHEDULE 4 2 7 1.4.7 SUGAR DRYING 14.5.2 TRASHING DSP 4 2 7 1.4.8 FERMENTATION 14.6 LOADING A N D T R A N S P O R T 4 2 8 1.4.9 DISTILLATION 19 4 2 8 4 2 9 4 2 9 429 430 4 3 0 4 3 0 4 3 1 4 3 1 4 3 1 4 3 1 4 3 2 4 3 5 437 4 3 7 4 3 7 440 440 4 4 1 442 4 4 3 4 4 4 4 4 4 445 445 446 446 4 4 7 4 4 7 449 450 450 450 4 5 1 4 5 1 452 452 452 452 452 4 5 3 4 5 3 4 5 3 IMAGE 7 20 CONTENTS ENERGY EFFICIENCY ENERGY A N D CHEMICAL USE IN REFINING REFINED SUGAR - AUTONOMOUS REFINERIES REFINED SUGAR - BACK-END REFINERIES PLANTATION WHITE SUGAR PROCESS LOSS CONTROL A N D MONITORING MEASUREMENT OF RECOVERY EFFICIENCY PHYSICAL LOSSES CHEMICAL LOSSES MICROBIOLOGICAL LOSSES ENVIRONMENTAL MANAGEMENT SYSTEMS 4 5 7 PROCEDURES A N D MONITORING SYSTEMS FACTORY POLICIES INTERNAL AUDITS EXTERNAL AUDITS A N D REPORTING BUNDING OF STORAGE AREAS MANAGEMENT OF ENERGY ENERGY GENERATION FROM BAGASSE BAGASSE BALANCE A N D MANAGEMENT OF SURPLUS/DEFICIT BAGASSE DRYING EFFICIENT MANAGEMENT OF BOILERS SUPPLEMENTARY FUELS FACTORY STEAM A N D ENERGY BALANCE BATCH VS. CONTINUOUS PROCESSING GENERATION OF POWER FOR EXPORT UTILIZATION OF WASTE H E A T 1.4.10 1.5 1.5.1 1.5.2 1.5.3 1.6 1 . 6 . 1 1 . 6 . 2 1.6.3 1.6.4 1.7 1.7.1 1.7.2 1.7.3 1.7.4 1.7.5 1 . 8 1 . 8 . 1 1 . 8 . 2 1.8.3 1.8.4 1.8.5 1.8.6 1.8.7 1 . 8 . 8 1.8.9 1.8.10 POTENTIAL FOR BIOGAS GENERATION A N D USE 1.8.11 ENERGY-SAVING LIGHTING, VENTILATION A N D OTHER OPPORTUNITIES 1.9 SUSTAINABILITY A N D MANAGEMENT OF CARBON EMISSIONS 1.9.1 SUSTAINABILITY 1.9.2 ESTIMATION/MEASUREMENT O F CARBON FOOTPRINT 1.9.3 FINANCE OPPORTUNITIES FOR EMISSION REDUCTIONS 1.9.4 USE OF SUSTAINABILITY METRICS 1.10 SAFETY TRAINING A N D SAFETY MANAGEMENT 1.10.1 POLICY A N D MANAGEMENT 1.10.2 HAZARDS IN T H E WORKPLACE 1.10.3 RISK ASSESSMENT A N D MITIGATION 1.10.4 TRAINING 1.10.5 SAFETY EQUIPMENT 1.10.6 MEASUREMENT OF LOST TIME DUE T O SAFETY INCIDENTS 1.11 REFERENCES 4 5 3 2 4 5 4 2 . 1 4 5 4 4 5 5 2.1.1 4 5 5 2.1.2 4 5 6 2.1.3 4 5 6 2.1.4 4 5 6 2.1.5 4 5 7 2.1.6 4 5 7 2.1.7 4 5 7 4 5 7 2.2 4 5 8 4 5 8 2.2.1 4 5 8 2.2.2 4 5 8 2.2.3 4 5 9 2.3 4 5 9 2.3.1 4 6 0 2.3.2 4 6 1 4 6 2 2.3.3 462 2.3.4 4 6 3 4 6 4 2.3.5 4 6 5 2.4 4 6 7 3 4 6 7 D 3.1 4 6 8 3.1.1 3.1.2 4 6 8 3.2 4 6 8 3.2.1 3.2.2 4 6 9 3.2.3 3.3 4 7 0 4 7 1 3.3.1 3.3.2 4 7 2 4 7 2 3.3.3 4 7 2 3.3.4 4 7 2 3.3.5 4 7 3 3.3.6 4 7 3 3.3.7 4 7 4 3.4 4 7 5 3.4.1 MANAGEMENT OF WASTES A N D EFFLUENTS IDENTIFICATION/CHARACTERIZATION A N D DISPOSAL OF SOLID WASTES ROADSIDE CANE SPILLAGE CANE WASHING M U D FILTER CAKE FROM JUICE CLARIFICATION PRESS MUDS FROM REFINERY PROCESSES BOILER ASH (AND FLY ASH) SLUDGE FROM EFFLUENT T R E A T M E N T PLANTS 4 8 1 LABORATORY FILTER PAPERS WITH LEAD ACETATE PRECIPITATES MANAGEMENT OF WASTE WATER A N D O T H E R LIQUID EFFLUENTS SOURCES OF LIQUID EFFLUENTS LEGAL REQUIREMENTS A N D REPORTING TREATMENT TECHNOLOGIES MANAGEMENT OF DUST/PARTICULATE EMISSIONS BOILER EMISSIONS REGULATIONS REMOVAL OF PARTICULATES FROM BOILER FLUE GAS GASEOUS EMISSIONS MANAGEMENT OF D U S T FROM BAGASSE SYSTEMS 4 9 7 DUST IN THE WORKPLACE 4 9 8 REFERENCES 4 9 8 4 7 7 4 7 7 4 7 7 4 7 7 4 7 7 4 7 9 4 8 0 4 8 1 482 4 8 2 4 8 4 4 8 6 4 9 3 4 9 3 4 9 4 4 9 6 CO-PRODUCT PRODUCTION M A N A G E M E N T OF MOLASSES STORAGE A N D HANDLING LOSSES IN STORAGE MAILLARD REACTIONS IN MOLASSES LARGE SCALE STORAGE OF BAGASSE DRY BULK STORAGE O F BAGASSE STORAGE FOR PAPER MANUFACTURE EXPORT OF BAGASSE MANAGEMENT OF VINASSE FROM A DISTILLERY DIRECT USE OF VINASSE FOR IRRIGATION EVAPORATION T O CONDENSED MOLASSES SOLUBLES (CMS) SPRAY DRYING INCINERATION IN BOILERS USE IN COMPOSTING 500 500 5 0 0 5 0 0 5 0 1 5 0 1 5 0 3 5 0 3 5 0 4 5 0 4 5 0 5 5 0 5 505 505 ANAEROBIC DIGESTION TO PRODUCE BIOGAS 505 LIFE CYCLE ASSESSMENT OF VARIOUS OPTIONS FOR VINASSE USAGE 5 0 8 MARKETABILITY OF TREATED RESIDUES 5 0 8 COMPOST 5 0 8 IMAGE 8 CONTENTS 21 3.4.2 FILTER CAKE 5 0 9 3.4.3 BOILER FLY ASH 509 3.4.4 CMS A N D SPRAY DRIED VINASSE 509 3.4.5 BAGASSE PELLETS 510 3.4.6 YEAST 5 1 0 3.5 REFERENCES 5 1 0 PART 3: SOCIAL, LABOR AND OUTGROWERS 5 1 3 INTRODUCTION 5 1 5 REGULATORY FRAMEWORKS 5 1 7 LEGAL A N D INDUSTRY REGULATION 517 MARKET DRIVEN REGULATION 519 BONSUCRO 5 2 0 FAIR TRADE INTERNATIONAL 522 ORGANICALLY CERTIFIED SUGAR 5 2 3 PARTNER ORGANIZATIONS 526 H U M A N RESOURCE MANAGEMENT 5 2 7 COMPLIANCE 5 2 7 INTERNATIONAL LABOR CONVENTIONS 5 2 8 HEALTHY WORKING ENVIRONMENT 5 3 1 H U M A N RESOURCE DEVELOPMENT 5 3 4 GENDER EQUALITY 5 3 4 SOCIAL WELFARE A N D C O M M U N I T Y INITIATIVES 5 3 7 WELFARE SERVICE PROVISION 5 3 8 HOUSING 5 3 8 COMMUNITY INDUSTRY ENGAGEMENT A N D ENVIRONMENTAL MANAGEMENT 5 3 9 EDUCATION 539 HEALTH CARE 5 4 1 LAND A N D RESOURCE MANAGEMENT 5 4 5 LAND OWNERSHIP 5 4 5 DISPLACEMENT A N D COMPENSATION 5 4 6 CULTURAL PRACTICE A N D CULTURAL ASSET MANAGEMENT 546 OUTGROWERS 5 4 9 OUTGROWERS A N D T H E CHANGING DYNAMICS OF T H E INDUSTRY 549 I M P O R T A N T FACTORS IN OUTGROWER DEVELOPMENT 550 SOCIAL A N D TECHNICAL PREPARATION 550 DEMAND DRIVEN APPROACH 5 5 1 LAND 552 CLIMATIC CONDITIONS - IRRIGATION 5 5 2 1 2 2 . 1 2.2 2 . 2 . 1 2 . 2 . 2 2.2.3 2.2.4 3 3.1 3.1.1 3.1.2 3.1.3 3.1.4 4.1 4.1.1 4.1.2 4.1.3 4.1.4 4.2 4.2.1 4.2.2 4.2.3 5 5.1 5.2 5.2.1 5.2.2 5.2.3 5.2.4 5.2.5 CAPACITY 554 5.2.6 OWNERSHIP 554 5.2.7 CULTURE A N D TRADITION 554 5.3 OUTGROWER MODELS 554 5.3.1 THE INDIVIDUAL OUTGROWER MODEL 555 5.3.2 THE BLOCK FARM MODEL 556 5.3.3 THE T R U S T A N D MANAGEMENT COMPANY MODEL 5 5 8 5.3.4 THE ASSOCIATION LED MODEL 559 5.3.5 THE COMMUNITY T R U S T FARM MODEL 559 5.3.6 THE JOINT VENTURE MODEL 5 6 1 5.3.7 THE PARTNERSHIP MODEL 562 5.4 BUILDING CAPACITY 5 6 3 5.4.1 TRAINING 5 6 3 5.4.2 METHODS A N D MODELS FOR TRAINING OUTGROWERS 565 5.5 EXTENSION SERVICES 567 5.5.1 EXTENSION SERVICE PROVIDERS 567 5.5.2 PAYMENT MECHANISMS FOR EXTENSION 575 5.5.3 MONITORING A N D EVALUATION OF EXTENSION 577 5.6 SUPPORTING SERVICES 577 5.6.1 MANAGEMENT INFORMATION SYSTEMS (MIS) 577 5.6.2 AERIAL IMAGERY A N D MAPPING 5 7 8 5.6.3 CONTRACTED SERVICES 579 5.6.4 SEEDCANE SUPPLY 579 5.6.5 INPUT SUPPLY 580 5.7 CONTRACTUAL ARRANGEMENTS 580 5.7.1 CANE SUPPLY AGREEMENT 580 5.8 SUMMARY OF GOOD MANAGEMENT PRACTICE RECOMMENDATIONS 5 8 1 5.9 CONCLUSION 582 5.10 REFERENCES 582 APPENDIX 1 SOIL FORM IDENTIFICATION KEY USED IN T H E SOUTH AFRICAN SUGAR INDUSTRY 587 APPENDIX 2 GUIDE TO TAKING SOIL A N D LEAF SAMPLES 5 8 8 APPENDIX 3 EXAMPLES OF SELECTED SOIL SPECIFIC CROP MANAGEMENT RECOMMENDATIONS 592 APPENDIX 4 LAND FORMING FOR SUGARCANE 594 APPENDIX 5 RELEVANT CHAPTER CROSS REFERENCE INDEX TO IFC A N D BONSUCRO STANDARDS 597 INDEX 599
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discipline	Agrar-/Forst-/Ernährungs-/Haushaltswissenschaft / Gartenbau
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id	DE-604.BV044715966
illustrated	Illustrated
indexdate	2024-07-10T08:00:11Z
institution	BVB
isbn	9783870401498
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-030112390
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owner	DE-1029
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physical	608 Seiten Ill., graph. Darst. 25 cm, 1400 g
publishDate	2013
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publisher	Bartens
record_format	marc
spelling	Good management practices for the cane sugar industry Jan Meyer ... Berlin Bartens 2013 608 Seiten Ill., graph. Darst. 25 cm, 1400 g txt rdacontent n rdamedia nc rdacarrier Literaturangaben Zuckerrohranbau (DE-588)4191066-7 gnd rswk-swf Zuckerrohrverarbeitung (DE-588)4191069-2 gnd rswk-swf Zuckerrohranbau (DE-588)4191066-7 s Zuckerrohrverarbeitung (DE-588)4191069-2 s DE-604 Meyer, Jan Sonstige oth DNB Datenaustausch application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030112390&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis
spellingShingle	Good management practices for the cane sugar industry Zuckerrohranbau (DE-588)4191066-7 gnd Zuckerrohrverarbeitung (DE-588)4191069-2 gnd
subject_GND	(DE-588)4191066-7 (DE-588)4191069-2
title	Good management practices for the cane sugar industry
title_auth	Good management practices for the cane sugar industry
title_exact_search	Good management practices for the cane sugar industry
title_full	Good management practices for the cane sugar industry Jan Meyer ...
title_fullStr	Good management practices for the cane sugar industry Jan Meyer ...
title_full_unstemmed	Good management practices for the cane sugar industry Jan Meyer ...
title_short	Good management practices for the cane sugar industry
title_sort	good management practices for the cane sugar industry
topic	Zuckerrohranbau (DE-588)4191066-7 gnd Zuckerrohrverarbeitung (DE-588)4191069-2 gnd
topic_facet	Zuckerrohranbau Zuckerrohrverarbeitung
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=030112390&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT meyerjan goodmanagementpracticesforthecanesugarindustry

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