Researchers from around the world provide 17 chapters on key advances in crop modeling, focusing on developing the next generation of crops and whole-farm models to improve decision-making and support for farmers. They address advances in modeling individual components of the agricultural system, such as planned responses to environmental conditions, crop growth stage prediction, nutrient and water cycling, and pest/disease dynamics; the challenges of combining modular sub-systems into whole-farm system, landscape, and regional models, including the integration of rotations and livestock, as well as landscape models like agroecological zone models and the performance of specific models like APSIM (Agricultural Production Systems Simulator) and DDSAT (Decision Support Systems for Agrotechnology Transfer) and the challenges of developing decision support systems linked with these models; and wider issues in improving model reliability, such as data sharing and the supply of real-time data, along with crop model inter-comparison. Annotation ©2020 Ringgold, Inc., Portland, OR (protoview.com)
Crop modelling has huge potential to improve decision making in farming. This collection reviews advances in next-generation models focused on user needs at the whole farm system and landscape scale.
This collection summarises key advances in crop modelling, with a focus on developing the next generation of crop and whole-farm models to improve decision making and support for farmers.
Chapters in Part 1 review advances in modelling individual components of agricultural systems, such as plant responses to environmental conditions, crop growth stage prediction, nutrient and water cycling as well as pest/disease dynamics. Building on topics previously discussed in Part 1, Part 2 addresses the challenges of combining modular sub-systems into whole farm system, landscape and regional models. Chapters cover topics such as integration of rotations and livestock, as well as landscape models such as agroecological zone (AEZ) models. Chapters also review the performance of specific models such as APSIM and DSSAT and the challenges of developing decision support systems (DSS) linked with such models. The final part of the book reviews wider issues in improving model reliability such as data sharing and the supply of real-time data, as well as crop model inter-comparison.
With its distinguished editor and range of experienced and expert chapter authors, this collection will be a standard reference for crop modellers and developers of decision support systems to improve the efficiency and sustainability of farming.
Part 1 Modelling sub-systems
1.Advances and improvements in modeling plant processes: Soo-Hyung Kim and
Jennifer Hsiao, University of Washington, USA; and Hannah Kinmonth-Schultz,
University of Kansas, USA;
2.Functionalstructural plant modeling of plants and crops: Jochem B. Evers
and Leo F. M. Marcelis, Wageningen University, The Netherlands;
3.Improving modeling of nutrient cycles in crop cultivation: Upendra Singh
and Cheryl Porter, International Fertilizer Development Center (IFDC) and
University of Florida, USA;
4.Improving modelling of water cycles in crop cultivation: Claudio O.
Stöckle, Washington State University, USA; and Francisco Meza, Pontificia
Universidad Católica de Chile, Chile;
5.Improving crop pest/disease modeling: J. M. Fernandes, Embrapa/Universidade
de Passo Fundo, Brazil; W. Pavan, Universidade de Passo Fundo, Brazil; D.
Pequeno, International Maize and Wheat Improvement Center (CIMMYT), Mexico;
R. Wiest, Instituto Federal Sul-Rio-grandense (IFSUL), Brazil; C. A. Holbig
and F. Oliveira, Universidade de Passo Fundo, Brazil; and G. Hoogenboom,
University of Florida-Gainesville, USA;
Part 2 Developing whole farm system, landscape and regional models
6.Whole-farm system models in practice: diverse applications: Alison M.
Laing, Cam K. McDonald, Andrew J. Ash and Diane B. Prestwidge, CSIRO
Agriculture and Food, Australia; and Holger Meinke, University of Tasmania,
Australia;
7.The DSSAT crop modeling ecosystem: Gerrit Hoogenboom, Cheryl H. Porter,
Kenneth J. Boote and Vakhtang Shelia, University of Florida, USA; Paul W.
Wilkens and Upendra Singh, International Fertilizer Development Center, USA;
Jeffrey W. White, USDA-ARS, USA; Senthold Asseng, University of Florida, USA;
Jon I. Lizaso, Universidad Politécnica de Madrid,
Spain; L. Patricia Moreno, University of Florida, USA; Willingthon Pavan,
Universidade de Passo Fundo, Brazil; Richard Ogoshi, University of Hawaii,
USA; L. Anthony Hunt, University of Guelph, Canada; Gordon Y. Tsuji,
University of Hawaii, USA; and James W. Jones, University of Florida, USA;
8.Modeling crop rotations: capturing short- and long-term feedbacks for
sustainability and soil health: B. Basso and R. A. Martinez-Feria, Michigan
State University, USA; and B. Dumont, University of Liege, Belgium;
9.Integrating livestock production into whole-farm system models of mixed
croplivestock systems: Katrien Descheemaeker, Wageningen University and
Research, The Netherlands; and Lindsay Bell, CSIRO Agriculture Flagship,
Australia;
10.Integrating economic simulation models with whole-farm system models for
ex ante technology impact assessment: John M. Antle, Oregon State University,
USA;
11.Developing climate-based decision support systems
from agricultural systems models: Clyde W. Fraisse, University of
Florida-Gainesville, USA; Norman E. Breuer, Catholic University Nuestra
Señora de la Asunción, Paraguay; and Victor Cabrera, University of
Wisconsin-Madison, USA;
12.Landscape models to support sustainable intensification of agroecological
systems: C. Nendel and P. Zander, Leibniz Centre for Agricultural Landscape
Research (ZALF), Germany;
13.Agroecosystem models for delivering ecosystem services: Jerry L. Hatfield,
Christian Dold, Erica J. Kistner-Thomas and Kenneth M. Wacha, USDA-ARS, USA;
Part 3 Modelling issues
14.Data for developing, testing, and applying crop and farm models: Frits K.
van Evert, Wageningen University & Research, Agrosystems Research, The
Netherlands;
15.Dealing with uncertainty in crop models: Daniel Wallach, INRA, France;
16.Crop simulation model inter-comparison and improvement: Senthold Asseng,
University of Florida, USA; Pierre Martre, INRA, France; and Frank Ewert,
University of Bonn and Leibniz Centre for Agricultural Landscape Research
(ZALF), Germany;
17.The future of crop modeling for sustainable agriculture: K. J. Boote,
University of Florida, USA;
Dr Kenneth Boote is Emeritus Professor in the Department of Agronomy at the University of Florida, USA. He is widely regarded as a pioneer in crop modelling, helping to develop the DSSAT software application program that simulates growth for over 40 different crops. He is presently serving as Co-Lead for Crop Modeling in AgMIP, the global Agricultural Model Intercomparison and Improvement Project. Amongst his many distinctions, Professor Boote is a Fellow of the American Association for the Advancement of Science, the Crop Science Society of America and the American Society of Agronomy. Professor Marcelis is Head of the Horticulture and Product Physiology Group at Wageningen University, The Netherlands. The Group is widely regarded as one of the worlds leading university centres of expertise on greenhouse cultivation and vertical farming. Professor Marcelis is an internationally-recognised authority on the use of light in greenhouse and other protected systems to optimise crop production.
Dr Kenneth Boote is Emeritus Professor in the Department of Agronomy at the University of Florida, USA. He is widely regarded as a pioneer in crop modelling, helping to develop the DSSAT software application program that simulates growth for over 40 different crops. He is presently serving as Co-Lead for Crop Modeling in AgMIP, the global Agricultural Model Intercomparison and Improvement Project. Amongst his many distinctions, Professor Boote is a Fellow of the American Association for the Advancement of Science, the Crop Science Society of America and the American Society of Agronomy. Dr. Bruno Basso is an agro-ecosystem scientist and University Foundation Professor in Department of Earth and Environmental Sciences and W.K. Kellogg Biological Station at Michigan State University. He is a Fellow of the Soil Science Society of America and the American Society of Agronomy, and 2016 recipient of the Innovation of the year award and 2019 Outstanding Faculty Award at Michigan State University and the recipient of the 2021 Morgan Stanley Sustainable Solutions Prize. He is ranked as top 2% scientist across all disciplines and 0.006% in the field of Agronomy, Agriculture, Meteorology. He received his Ph.D. from Michigan State University. Dr Claas Nendel heads the Research Group on Landscape Modelling at the Leibniz Centre for Agricultural Landscape Research (ZALF), Germany. He is also Professor of Landscape Systems Analysis at the University of Potsdam. Dr Nendel is the Past President of the European Society of Agronomy and hosted, among other events, the first International Crop Modelling Symposium in Berlin in 2016. He is principal developer of the MONICA model which simulates biophysical processes in agroecosystems to allow assessment of regional impacts of climate change, and is internationally known for his contribution to agroecosystem modelling.
