Buch, Englisch, Band 82, 208 Seiten, Format (B × H): 152 mm x 229 mm, Gewicht: 290 g
Irrigation management in horticultural production
Buch, Englisch, Band 82, 208 Seiten, Format (B × H): 152 mm x 229 mm, Gewicht: 290 g
Reihe: Burleigh Dodds Science: Instant Insights
ISBN: 978-1-80146-637-0
Verlag: Burleigh Dodds Science Publishing
This collection features six peer-reviewed reviews on irrigation management in horticultural production.
The first chapter considers recent advances in irrigation techniques used in sustainable vegetable cultivation and reviews the performance and efficiency of these systems.
The second chapter details the need to optimise precision in orchard irrigation management, focussing on matching water supply to plant demand as a means of achieving this.
The third chapter assesses irrigation management systems for tomato production and how these can be optimised alongside nutrient management to ensure the production of safe and nutritious tomatoes.
The fourth chapter summarises the common types of irrigation systems found in soilless culture production, as well as the emergence of new systems, including plant-based sensing and monitoring systems.
The fifth chapter highlights the need for more sustainable water use in ornamental production systems and the methods which can be used to achieve this, such as reducing runoff volume.
The final chapter considers recent advances in irrigation management in greenhouse cultivation, focussing on water balance, crop evapotranspiration techniques and irrigation scheduling.
Autoren/Hrsg.
Fachgebiete
- Naturwissenschaften Biowissenschaften Botanik
- Naturwissenschaften Agrarwissenschaften Agrarwissenschaften Nachhaltige Landwirtschaft
- Naturwissenschaften Agrarwissenschaften Agrarwissenschaften Landwirtschaftliche Bewässerung
- Naturwissenschaften Agrarwissenschaften Ackerbaukunde, Pflanzenbau Gartenbau
- Naturwissenschaften Agrarwissenschaften Ackerbaukunde, Pflanzenbau Schädlingsbekämpfung
Weitere Infos & Material
Chapter 1 - Advances in irrigation techniques in vegetable cultivation: Andre da Silva and Timothy Coolong, University of Georgia, USA; 1 Introduction2 Irrigation systems3 Irrigation system performance4 Irrigation scheduling5 Conclusions6 Where to look for further information7 References
Chapter 2 - Optimizing precision in orchard irrigation and nutrient management: Denise Neilsen and Gerry Neilsen, Summerland Research and Development Centre, Agriculture and Agri-Food Canada, Canada; 1 Introduction2 Optimizing precision in orchard irrigation management3 Optimizing precision in orchard nutrient management4 Fertigation5 Fertigation methods6 Nutrient requirements7 Foliar application8 Where to look for further information9 References
Chapter 3 - Improving water and nutrient management in tomato cultivation: E. Simonne, M. Ozores-Hampton, A. Simonne and A. Gazula, University of Florida, USA; 1 Introduction2 Overview of tomato production systems3 Environmental regulations affecting tomato production in the United States4 Changing approaches to water and nutrient management: from optimizing production to optimizing input efficiency5 Irrigation management systems for tomato production6 Optimizing irrigation volumes and scheduling7 Fertilization in tomato production: introduction and soil sampling8 Nutrient sources for tomato production9 Optimizing nitrogen (N) rates10 Fertilizer recommendations, nutrient uptake and leaching11 Implications of water and fertilizer use for food safety12 Teaching water and nutrient management to tomato producers13 Future trends and conclusion14 Where to look for further information15 References
Chapter 4 - Advances in irrigation/fertigation techniques in greenhouse soilless culture systems (SCS): Georgios Nikolaou and Damianos Neocleous, Ministry of Agriculture, Rural Development and Environment, Cyprus; and Evangelini Kitta and Nikolaos Katsoulas, University of Thessaly, Greece; 1 Introduction2 Types of irrigation and fertigation system in SCS3 Factors affecting irrigation decisions4 Common irrigation management systems5 Plant-based sensing and monitoring systems6 Case study: effects of greenhouse microclimate on irrigation scheduling and the use of contact plant-sensing technology in SCS7 The use of internet of things (IoT) technologies8 Conclusion and future trends9 Where to look for further information10 Acknowledgment11 References
Chapter 5 - Advances in irrigation practices and technology in ornamental cultivation: John D. Lea-Cox, University of Maryland, USA; 1 Introduction2 Ornamental production systems and water use3 Key challenges for improving irrigation efficiency: systems design and maintenance4 Sensor-based technologies for irrigation scheduling5 Irrigation data management and decision support systems6 Developing a universal irrigation protocol: a case study7 Future trends8 Where to look for further information9 References
Chapter 6 - Advances in irrigation management in greenhouse cultivation: Stefania De Pascale, University of Naples Federico II, Italy; Luca Incrocci, University of Pisa, Italy; Daniele Massa, Council for Agricultural Research and Economics, Italy; Youssef Rouphael, University of Naples Federico II, Italy; and Alberto Pardossi, University of Pisa, Italy; 1 Introduction2 Irrigation systems3 Irrigation management strategies4 Irrigation scheduling5 Coupling crop management practices with IE6 Future trends and conclusion7 References
