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Bernard
Dubos
<p>Bernard Dubos, chercheur au Cirad, a étudié les outils de diagnostic des besoins en nutriments des plantations de palmier à huile tout au long de sa carrière. En partenariat avec des sociétés privées en Afrique et en Amérique latine, il a construit un réseau d’essais pour optimiser les stratégies de fertilisation de chaque plantation et préserver leur durabilité.<br></p>
2
A01
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A2385
Xavier Bonneau
Bonneau, Xavier
Xavier
Bonneau
<p>Xavier Bonneau, agronome spécialiste du cocotier et du palmier à huile au Cirad, a mis en place un conseil agronomique pour améliorer les rendements et la durabilité de plantations, notamment en Afrique et en Indonésie. Les impacts environnementaux des pratiques agricoles sont pris en compte dans ses travaux.<br></p>
3
A01
01
A2386
Albert Flori
Flori, Albert
Albert
Flori
<p>Albert Flori, agronome et statisticien au Cirad, apporte ses compétences à l'amélioration des systèmes de culture pérennes tropicaux en élaborant des protocoles expérimentaux et des aides à l'interprétation fiabilisant les décisions concernant la fertilisation des plantations et le choix du matériel végétal.<br></p>
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Tristan Durand-Gasselin
Durand-Gasselin, Tristan
Tristan
Durand-Gasselin
<p>Tristan Durand-Gasselin is a senior oil palm breeder and CEO of PalmElit, a Cirad subsidiary specializing in the development and diffusion of sustainable oil palm varieties.</p><div><br></div>
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Impression à la demande
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Agriculture et productions végétales|Cultures industrielles;Agronomie et systèmes de culture;Ingénierie et technologie;Santé des plantes
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<p><b>This Print On Demand book will be sent within 3 weeks (metropolitan France) and in a separate package if you order another paperback book.</b></p><p><b>Cet ouvrage en impression à la demande sera envoyé sous 3 semaines environ (France métropolitaine) et dans un colis séparé en cas de commande avec un autre livre papier.</b></p><p>Intended as guide for designing the fertilization system in oil palm plantations, this book explains in clear language how to define fertilizer recommendations for each plantation, considering the specific characteristics of each site. </p><p>The authors present the principles for interpreting the results of plant tissue analysis, mainly leaflets, taking into account the influence of factors specific to each plantation (age, plant material, climate, soil). They detail how to experimentally determine site-specific reference levels of mineral elements and sampling rules for monitoring the nutritional status of the plantation. Priority is given to the most specific facies (soil, plant material) of the planted areas rather than to an average representation of the plots. </p><p>This guide explains how to create fertilization schedules to achieve optimal leaf contents from experimentation, and to compare these data with information from geographic information systems. This decision support system is designed to be valid in all situations. </p><p>In addition to the economic optimization of fertilization, environmental concerns are considered: soil health and absorption efficiency must be integrated into the fertilization strategy by optimizing cultivation practices for fertilizer application and organic matter management. </p><p>This guide is illustrated by numerous examples from trials in various soil, climate and plant material conditions in Africa and Latin America.</p><p><b>This book is available in French : <i><a href="https://www.quae.com/produit/1673/9782759232628/piloter-la-fertilisation-du-palmier-a-huile" target="_blank">Piloter la fertilisation du palmier à huile</a></i>.</b></p><p><a href="http://editions-quae.com/PDF/preface-oil-palm.pdf" target="_blank">Read the foreword written by Tristan Durand-Gasselin, senior oil palm breeder and CEO of PalmElit.</a></p>
02
00
<p>Illustrated by numerous examples from trials in various soil, climate and plant material conditions in Africa and Latin America, this book is a guide for designing the fertilization system in oil palm plantations. It explains how to define fertilizer recommendations for each plantation, considering the specific characteristics of each site. <br></p>
04
00
<p><b>Acknowledgements<br>Preface<br>Introduction: context and purpose of this guide<br></b><br><b>1. Understanding oil palm mineral nutrition and diagnosing nutritional needs.</b><br>Why fertilize oil palm plantations?<br>Can deficiency symptoms be trusted to recommend fertilizer applications?.<br> Nitrogen (N) deficiency<br> Potassium (K) deficiency.<br> Magnesium (Mg) deficiency<br> Boron (B) deficiency<br> Copper (Cu) deficiency<br> Manganese (Mn) deficiency<br> Other nutrients.<br> Conclusion<br>Analysing leaf samples to establish a diagnosis.<br>Ascertaining variability in leaf nutrient contents.<br> Nitrogen (N)<br> Phosphorus (P<br> Potassium (K)<br> Calcium (Ca)<br> Magnesium (Mg)<br> Chlorine (Cl).<br> Sulphur (S)<br> Trace elements: boron, copper, iron, manganese<br> Interpreting leaf contents considering the specific characteristics of a plantation<br><br><b>2. Plantation sampling for ongoing mineral nutrition monitoring..</b><br>Dividing the plantation into several leaf sampling units<br>Planning the leaf sampling schedule<br>Choosing the palms of the reference sample inside the LSU<br> Restricting reference sampling to a uniform section of the LSU<br> When and how to select the palms used for leaf sampling<br>Taking special leaf samples to check specific zones in the LSU</p><p><br><b>3. Adapting the decision-support tool to local conditions: taking the specificities of each site into account</b><br>Fertilization trial principles<br> Choice of treatments and experimental designs.<br> Aggregating data and determining local optimum contents<br> Experimental precision<br>Drawing up the fertilizer schedule from the experimental results<br> Determining the optimum content range per nutrient.<br> Drawing up a fertilizer schedule from the optimum content range<br> Applying the conclusions of the experimental approach<br>A better understanding of trial results<br><br><b>4. Extrapolating fertilizer schedules resulting from trials.</b><br>Analysing the plantation reaction on an LSU scale<br>What information can be drawn from soil analyses?<br>Taking into account soil calcium contents when using KCl<br>Detecting distortions due to soil properties<br> Associating a reference soil analysis with each leaf sample<br> Constructing a geographic information system (GIS)<br> Setting up reactivity tests<br><br><b>5. Adopting sustainable fertilization practices: prospects and recommendations.</b><br>Preserving soil health<br> Caring for the chemical fertility of soils<br> Assessing soil reserves<br>Improving fertilization efficiency<br> Reducing mineral nutrient losses through different cultural practices<br> Improving the physico-chemical properties of soils<br>Developing a precise and environment-friendly fertilization tool<br> Precision of recommendations and fertilizer schedules<br> Spatial precision of leaf sampling and fertilizer application<br><br><b>Conclusion: generic tools for optimized fertilization in each plantation<br>Bibliography</b><br></p>
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Bernard
Dubos
<p>Bernard Dubos, chercheur au Cirad, a étudié les outils de diagnostic des besoins en nutriments des plantations de palmier à huile tout au long de sa carrière. En partenariat avec des sociétés privées en Afrique et en Amérique latine, il a construit un réseau d’essais pour optimiser les stratégies de fertilisation de chaque plantation et préserver leur durabilité.<br></p>
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A01
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A2385
Xavier Bonneau
Bonneau, Xavier
Xavier
Bonneau
<p>Xavier Bonneau, agronome spécialiste du cocotier et du palmier à huile au Cirad, a mis en place un conseil agronomique pour améliorer les rendements et la durabilité de plantations, notamment en Afrique et en Indonésie. Les impacts environnementaux des pratiques agricoles sont pris en compte dans ses travaux.<br></p>
3
A01
01
A2386
Albert Flori
Flori, Albert
Albert
Flori
<p>Albert Flori, agronome et statisticien au Cirad, apporte ses compétences à l'amélioration des systèmes de culture pérennes tropicaux en élaborant des protocoles expérimentaux et des aides à l'interprétation fiabilisant les décisions concernant la fertilisation des plantations et le choix du matériel végétal.<br></p>
4
A15
01
A2584
Tristan Durand-Gasselin
Durand-Gasselin, Tristan
Tristan
Durand-Gasselin
<p>Tristan Durand-Gasselin is a senior oil palm breeder and CEO of PalmElit, a Cirad subsidiary specializing in the development and diffusion of sustainable oil palm varieties.</p><div><br></div>
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Impression à la demande
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<p><b>This Print On Demand book will be sent within 3 weeks (metropolitan France) and in a separate package if you order another paperback book.</b></p><p><b>Cet ouvrage en impression à la demande sera envoyé sous 3 semaines environ (France métropolitaine) et dans un colis séparé en cas de commande avec un autre livre papier.</b></p><p>Intended as guide for designing the fertilization system in oil palm plantations, this book explains in clear language how to define fertilizer recommendations for each plantation, considering the specific characteristics of each site. </p><p>The authors present the principles for interpreting the results of plant tissue analysis, mainly leaflets, taking into account the influence of factors specific to each plantation (age, plant material, climate, soil). They detail how to experimentally determine site-specific reference levels of mineral elements and sampling rules for monitoring the nutritional status of the plantation. Priority is given to the most specific facies (soil, plant material) of the planted areas rather than to an average representation of the plots. </p><p>This guide explains how to create fertilization schedules to achieve optimal leaf contents from experimentation, and to compare these data with information from geographic information systems. This decision support system is designed to be valid in all situations. </p><p>In addition to the economic optimization of fertilization, environmental concerns are considered: soil health and absorption efficiency must be integrated into the fertilization strategy by optimizing cultivation practices for fertilizer application and organic matter management. </p><p>This guide is illustrated by numerous examples from trials in various soil, climate and plant material conditions in Africa and Latin America.</p><p><b>This book is available in French : <i><a href="https://www.quae.com/produit/1673/9782759232628/piloter-la-fertilisation-du-palmier-a-huile" target="_blank">Piloter la fertilisation du palmier à huile</a></i>.</b></p><p><a href="http://editions-quae.com/PDF/preface-oil-palm.pdf" target="_blank">Read the foreword written by Tristan Durand-Gasselin, senior oil palm breeder and CEO of PalmElit.</a></p>
02
00
<p>Illustrated by numerous examples from trials in various soil, climate and plant material conditions in Africa and Latin America, this book is a guide for designing the fertilization system in oil palm plantations. It explains how to define fertilizer recommendations for each plantation, considering the specific characteristics of each site. <br></p>
04
00
<p><b>Acknowledgements<br>Preface<br>Introduction: context and purpose of this guide<br></b><br><b>1. Understanding oil palm mineral nutrition and diagnosing nutritional needs.</b><br>Why fertilize oil palm plantations?<br>Can deficiency symptoms be trusted to recommend fertilizer applications?.<br> Nitrogen (N) deficiency<br> Potassium (K) deficiency.<br> Magnesium (Mg) deficiency<br> Boron (B) deficiency<br> Copper (Cu) deficiency<br> Manganese (Mn) deficiency<br> Other nutrients.<br> Conclusion<br>Analysing leaf samples to establish a diagnosis.<br>Ascertaining variability in leaf nutrient contents.<br> Nitrogen (N)<br> Phosphorus (P<br> Potassium (K)<br> Calcium (Ca)<br> Magnesium (Mg)<br> Chlorine (Cl).<br> Sulphur (S)<br> Trace elements: boron, copper, iron, manganese<br> Interpreting leaf contents considering the specific characteristics of a plantation<br><br><b>2. Plantation sampling for ongoing mineral nutrition monitoring..</b><br>Dividing the plantation into several leaf sampling units<br>Planning the leaf sampling schedule<br>Choosing the palms of the reference sample inside the LSU<br> Restricting reference sampling to a uniform section of the LSU<br> When and how to select the palms used for leaf sampling<br>Taking special leaf samples to check specific zones in the LSU</p><p><br><b>3. Adapting the decision-support tool to local conditions: taking the specificities of each site into account</b><br>Fertilization trial principles<br> Choice of treatments and experimental designs.<br> Aggregating data and determining local optimum contents<br> Experimental precision<br>Drawing up the fertilizer schedule from the experimental results<br> Determining the optimum content range per nutrient.<br> Drawing up a fertilizer schedule from the optimum content range<br> Applying the conclusions of the experimental approach<br>A better understanding of trial results<br><br><b>4. Extrapolating fertilizer schedules resulting from trials.</b><br>Analysing the plantation reaction on an LSU scale<br>What information can be drawn from soil analyses?<br>Taking into account soil calcium contents when using KCl<br>Detecting distortions due to soil properties<br> Associating a reference soil analysis with each leaf sample<br> Constructing a geographic information system (GIS)<br> Setting up reactivity tests<br><br><b>5. Adopting sustainable fertilization practices: prospects and recommendations.</b><br>Preserving soil health<br> Caring for the chemical fertility of soils<br> Assessing soil reserves<br>Improving fertilization efficiency<br> Reducing mineral nutrient losses through different cultural practices<br> Improving the physico-chemical properties of soils<br>Developing a precise and environment-friendly fertilization tool<br> Precision of recommendations and fertilizer schedules<br> Spatial precision of leaf sampling and fertilizer application<br><br><b>Conclusion: generic tools for optimized fertilization in each plantation<br>Bibliography</b><br></p>
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Dubos, Bernard
Bernard
Dubos
<p>Bernard Dubos, chercheur au Cirad, a étudié les outils de diagnostic des besoins en nutriments des plantations de palmier à huile tout au long de sa carrière. En partenariat avec des sociétés privées en Afrique et en Amérique latine, il a construit un réseau d’essais pour optimiser les stratégies de fertilisation de chaque plantation et préserver leur durabilité.<br></p>
2
A01
01
A2385
Xavier Bonneau
Bonneau, Xavier
Xavier
Bonneau
<p>Xavier Bonneau, agronome spécialiste du cocotier et du palmier à huile au Cirad, a mis en place un conseil agronomique pour améliorer les rendements et la durabilité de plantations, notamment en Afrique et en Indonésie. Les impacts environnementaux des pratiques agricoles sont pris en compte dans ses travaux.<br></p>
3
A01
01
A2386
Albert Flori
Flori, Albert
Albert
Flori
<p>Albert Flori, agronome et statisticien au Cirad, apporte ses compétences à l'amélioration des systèmes de culture pérennes tropicaux en élaborant des protocoles expérimentaux et des aides à l'interprétation fiabilisant les décisions concernant la fertilisation des plantations et le choix du matériel végétal.<br></p>
4
A15
01
A2584
Tristan Durand-Gasselin
Durand-Gasselin, Tristan
Tristan
Durand-Gasselin
<p>Tristan Durand-Gasselin is a senior oil palm breeder and CEO of PalmElit, a Cirad subsidiary specializing in the development and diffusion of sustainable oil palm varieties.</p><div><br></div>
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Pays du sud
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Milieux naturels et environnement
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Izibook:Subject
Agriculture et productions végétales
24
Izibook:Subject
Impression à la demande
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634.974
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<p><b>This Print On Demand book will be sent within 3 weeks (metropolitan France) and in a separate package if you order another paperback book.</b></p><p><b>Cet ouvrage en impression à la demande sera envoyé sous 3 semaines environ (France métropolitaine) et dans un colis séparé en cas de commande avec un autre livre papier.</b></p><p>Intended as guide for designing the fertilization system in oil palm plantations, this book explains in clear language how to define fertilizer recommendations for each plantation, considering the specific characteristics of each site. </p><p>The authors present the principles for interpreting the results of plant tissue analysis, mainly leaflets, taking into account the influence of factors specific to each plantation (age, plant material, climate, soil). They detail how to experimentally determine site-specific reference levels of mineral elements and sampling rules for monitoring the nutritional status of the plantation. Priority is given to the most specific facies (soil, plant material) of the planted areas rather than to an average representation of the plots. </p><p>This guide explains how to create fertilization schedules to achieve optimal leaf contents from experimentation, and to compare these data with information from geographic information systems. This decision support system is designed to be valid in all situations. </p><p>In addition to the economic optimization of fertilization, environmental concerns are considered: soil health and absorption efficiency must be integrated into the fertilization strategy by optimizing cultivation practices for fertilizer application and organic matter management. </p><p>This guide is illustrated by numerous examples from trials in various soil, climate and plant material conditions in Africa and Latin America.</p><p><b>This book is available in French : <i><a href="https://www.quae.com/produit/1673/9782759232628/piloter-la-fertilisation-du-palmier-a-huile" target="_blank">Piloter la fertilisation du palmier à huile</a></i>.</b></p><p><a href="http://editions-quae.com/PDF/preface-oil-palm.pdf" target="_blank">Read the foreword written by Tristan Durand-Gasselin, senior oil palm breeder and CEO of PalmElit.</a></p>
02
00
<p>Illustrated by numerous examples from trials in various soil, climate and plant material conditions in Africa and Latin America, this book is a guide for designing the fertilization system in oil palm plantations. It explains how to define fertilizer recommendations for each plantation, considering the specific characteristics of each site. <br></p>
04
00
<p><b>Acknowledgements<br>Preface<br>Introduction: context and purpose of this guide<br></b><br><b>1. Understanding oil palm mineral nutrition and diagnosing nutritional needs.</b><br>Why fertilize oil palm plantations?<br>Can deficiency symptoms be trusted to recommend fertilizer applications?.<br> Nitrogen (N) deficiency<br> Potassium (K) deficiency.<br> Magnesium (Mg) deficiency<br> Boron (B) deficiency<br> Copper (Cu) deficiency<br> Manganese (Mn) deficiency<br> Other nutrients.<br> Conclusion<br>Analysing leaf samples to establish a diagnosis.<br>Ascertaining variability in leaf nutrient contents.<br> Nitrogen (N)<br> Phosphorus (P<br> Potassium (K)<br> Calcium (Ca)<br> Magnesium (Mg)<br> Chlorine (Cl).<br> Sulphur (S)<br> Trace elements: boron, copper, iron, manganese<br> Interpreting leaf contents considering the specific characteristics of a plantation<br><br><b>2. Plantation sampling for ongoing mineral nutrition monitoring..</b><br>Dividing the plantation into several leaf sampling units<br>Planning the leaf sampling schedule<br>Choosing the palms of the reference sample inside the LSU<br> Restricting reference sampling to a uniform section of the LSU<br> When and how to select the palms used for leaf sampling<br>Taking special leaf samples to check specific zones in the LSU</p><p><br><b>3. Adapting the decision-support tool to local conditions: taking the specificities of each site into account</b><br>Fertilization trial principles<br> Choice of treatments and experimental designs.<br> Aggregating data and determining local optimum contents<br> Experimental precision<br>Drawing up the fertilizer schedule from the experimental results<br> Determining the optimum content range per nutrient.<br> Drawing up a fertilizer schedule from the optimum content range<br> Applying the conclusions of the experimental approach<br>A better understanding of trial results<br><br><b>4. Extrapolating fertilizer schedules resulting from trials.</b><br>Analysing the plantation reaction on an LSU scale<br>What information can be drawn from soil analyses?<br>Taking into account soil calcium contents when using KCl<br>Detecting distortions due to soil properties<br> Associating a reference soil analysis with each leaf sample<br> Constructing a geographic information system (GIS)<br> Setting up reactivity tests<br><br><b>5. Adopting sustainable fertilization practices: prospects and recommendations.</b><br>Preserving soil health<br> Caring for the chemical fertility of soils<br> Assessing soil reserves<br>Improving fertilization efficiency<br> Reducing mineral nutrient losses through different cultural practices<br> Improving the physico-chemical properties of soils<br>Developing a precise and environment-friendly fertilization tool<br> Precision of recommendations and fertilizer schedules<br> Spatial precision of leaf sampling and fertilizer application<br><br><b>Conclusion: generic tools for optimized fertilization in each plantation<br>Bibliography</b><br></p>
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9782759236756
15
9782759236756
06
03
9782759236763
15
9782759236763
WORLD
08
Éditions Quae
04
01
00
20221208
03
01
D1
Quae
20
04
05
01
EUR