2026 Roberto C. Izaurralde: Plant Science and Agronomy Researcher – H-Index, Publications & Awards

Discipline name	D-Index	World Ranking	Current World Ranking	National Ranking	Current National Ranking	Publications	Citations
Plant Science and Agronomy	74	557	514	168	153	223	23479

Research.com Recognitions

2010 - Fellow of the American Association for the Advancement of Science (AAAS)
2005 - Fellow of the American Society of Agronomy (ASA)

Overview

What is he best known for?

The fields of study he is best known for:

Agriculture
Ecology
Climate change

Climate change, Crop yield, Agronomy, Simulation modeling and Agriculture are his primary areas of study. His research in the fields of Global warming and Climate model overlaps with other disciplines such as Energy. Yield and Spatial ecology is closely connected to Statistics in his research, which is encompassed under the umbrella topic of Crop yield.

His study ties his expertise on Soil carbon together with the subject of Agronomy. His biological study spans a wide range of topics, including Downscaling, Water-use efficiency and Yield. His Yield research includes themes of Agricultural engineering and Phenology.

His most cited work include:

Rising Temperatures Reduce Global Wheat Production (801 citations)
Rising Temperatures Reduce Global Wheat Production (801 citations)
Uncertainty in Simulating Wheat Yields Under Climate Change (749 citations)

What are the main themes of his work throughout his whole career to date?

Roberto C. Izaurralde spends much of his time researching Agronomy, Soil water, Crop yield, Climate change and Agriculture. His study involves Tillage, Crop, Manure, Hordeum vulgare and Growing season, a branch of Agronomy. His Soil water study incorporates themes from Organic matter and Water content.

Roberto C. Izaurralde combines subjects such as Regression analysis, Statistics, Agricultural economics and Topsoil with his study of Crop yield. When carried out as part of a general Climate change research project, his work on Global warming and Climate model is frequently linked to work in Simulation modeling and Atmospheric sciences, therefore connecting diverse disciplines of study. His Agriculture research incorporates themes from Environmental resource management, Precipitation and Yield.

He most often published in these fields:

Agronomy (39.41%)
Soil water (22.35%)
Crop yield (28.24%)

What were the highlights of his more recent work (between 2017-2021)?

Corn stover (14.12%)
Greenhouse gas (15.29%)
Agriculture (24.12%)

In recent papers he was focusing on the following fields of study:

Roberto C. Izaurralde mostly deals with Corn stover, Greenhouse gas, Agriculture, Waste management and Biofuel. His work deals with themes such as Soil carbon, Climate change and Crop, which intersect with Agriculture. His Climate change study integrates concerns from other disciplines, such as Cropping, Agricultural productivity and Precipitation.

His study looks at the relationship between Crop and topics such as Relative humidity, which overlap with Agronomy. His Waste management study which covers Agroforestry that intersects with Climate change scenario, Effects of global warming and Crop diversity. His studies in Biofuel integrate themes in fields like Life-cycle assessment, Raw material, Stover and Biomass.

Between 2017 and 2021, his most popular works were:

Multimodel ensembles improve predictions of crop-environment-management interactions. (44 citations)
Multimodel ensembles improve predictions of crop-environment-management interactions. (44 citations)
Global wheat production with 1.5 and 2.0°C above pre-industrial warming (40 citations)

In his most recent research, the most cited papers focused on:

Agriculture
Ecology
Climate change

His primary scientific interests are in Agriculture, Soil management, Soil carbon, Inverse and Productivity. His study in Agriculture is interdisciplinary in nature, drawing from both Natural resource and Futures studies. His Soil management research integrates issues from Carbon sequestration, Carbon and Soil health.

His Soil carbon study frequently draws connections between adjacent fields such as Environmental protection. His Productivity studies intersect with other disciplines such as Vulnerability, Precipitation, Environmental resource management, Agricultural productivity and Climate change. His Environment management research includes a combination of various areas of study, such as Simulation modeling, Monotonic function and High skill.

Best Publications

Rising Temperatures Reduce Global Wheat Production

S. Asseng;F. Ewert;P. Martre;P. Martre;R. P. Rötter

2444
Citations
Climate Impacts on Agriculture: Implications for Crop Production

Jerry L. Hatfield;Kenneth J. Boote;B. A. Kimball;Lewis A. Ziska

2012
Citations
Uncertainty in Simulating Wheat Yields Under Climate Change

S. Asseng;F. Ewert;C. Rosenzweig;J. W. Jones

1459
Citations
Sustainable bioenergy production from marginal lands in the US Midwest.

Ilya Gelfand;Ilya Gelfand;Ritvik Sahajpal;Ritvik Sahajpal;Ritvik Sahajpal;Xuesong Zhang;Xuesong Zhang;R. César Izaurralde;R. César Izaurralde;R. César Izaurralde

825
Citations
Simulating soil C dynamics with EPIC: Model description and testing against long-term data

R.C. Izaurralde;J.R. Williams;W.B. McGill;N.J. Rosenberg

668
Citations
Similar estimates of temperature impacts on global wheat yield by three independent methods

Bing Liu;Bing Liu;Senthold Asseng;Christoph Müller;Frank Ewert

583
Citations
Multimodel ensembles of wheat growth: many models are better than one

Pierre Martre;Pierre Martre;Daniel Wallach;Senthold Asseng;Frank Ewert

563
Citations
Climate change impact and adaptation for wheat protein

Senthold Asseng;Pierre Martre;Andrea Maiorano;Reimund P Rötter

543
Citations
Management effects on soil C storage on the Canadian prairies

H.H Janzen;C.A Campbell;R.C Izaurralde;B.H Ellert

540
Citations
Cellulosic biofuel contributions to a sustainable energy future: Choices and outcomes

G. Philip Robertson;G. Philip Robertson;Stephen K. Hamilton;Stephen K. Hamilton;Bradford L. Barham;Bradford L. Barham;Bruce E. Dale;Bruce E. Dale

427
Citations
MONITORING AND VERIFYING CHANGES OF ORGANIC CARBON IN SOIL

W.M. Post;R. C. Izaurralde;L. K. Mann;Norman B. Bliss

379
Citations
Distribution of light and heavy fractions of soil organic carbon as related to land use and tillage practice

Zhengxi Tan;R. Lal;L. Owens;R. C. Izaurralde

375
Citations
The uncertainty of crop yield projections is reduced by improved temperature response functions.

Enli Wang;Pierre Martre;Zhigan Zhao;Zhigan Zhao;Frank Ewert

330
Citations
A model‐data intercomparison of CO2 exchange across North America: Results from the North American Carbon Program site synthesis

Christopher R. Schwalm;Christopher A. Williams;Kevin Schaefer;Ryan S. Anderson

323
Citations
Global Gridded Crop Model evaluation: benchmarking, skills, deficiencies and implications

Christoph Müller;Joshua Elliott;Joshua Elliott;James Chryssanthacopoulos;James Chryssanthacopoulos;Almut Arneth

318
Citations
Integrated assessment of Hadley Center (HadCM2) climate-change impacts on agricultural productivity and irrigation water supply in the conterminous United States: Part II. Regional agricultural production in 2030 and 2095

R Cesar C. Izaurralde;Norman J. Rosenberg;Robert A. Brown;Allison M. Thomson

288
Citations
Quantifying carbon for agricultural soil management: from the current status toward a global soil information system

K. Paustian;S. Collier;J. Baldock;R. Burgess

269
Citations
The Global Gridded Crop Model Intercomparison: data and modeling protocols for Phase 1 (v1.0)

J. Elliott;C. Müller;D. Deryng;J. Chryssanthacopoulos

269
Citations
Long-term climate change impacts on agricultural productivity in eastern China

Daniel R. Chavas;R. César Izaurralde;Allison M. Thomson;Xuejie Gao

261
Citations
The Agricultural Policy Environmental EXtender (APEX) Model: An Emerging Tool for Landscape and Watershed Environmental Analyses

Philip W. Gassman;Jimmy R. Williams;Xiuying Wang;Ali Saleh

248
Citations
Enhancement of Carbon Sequestration in US Soils

Wilfred M. Post;R. Cesar Izaurralde;Julie D. Jastrow;Bruce A. McCARL

246
Citations
Tillage and N-source influence soil-emitted nitrous oxide in the Alberta Parkland region

R. L. Lemke;R. C. Izaurralde;M. Nyborg;E. D. Solberg

211
Citations
SENSITIVITY AND UNCERTAINTY ANALYSES OF CROP YIELDS AND SOIL ORGANIC CARBON SIMULATED WITH EPIC

X. Wang;X. He;J. R. Williams;R. C. Izaurralde

185
Citations
Global wheat production with 1.5 and 2.0°C above pre-industrial warming

Bing Liu;Pierre Martre;Frank Ewert;John R. Porter;John R. Porter;John R. Porter

180
Citations
Climate change impacts on agriculture and soil carbon sequestration potential in the Huang-Hai plain of China

Allison M. Thomson;R. César Izaurralde;Norman J. Rosenberg;Xiaoxia He

179
Citations
Marginal Lands: Concept, Assessment and Management

Shujiang kang;Wilfred M. Post;Jeff A. Nichols;Dali Wang

176
Citations
Multimodel ensembles improve predictions of crop-environment-management interactions.

Daniel Wallach;Pierre Martre;Bing Liu;Bing Liu;Senthold Asseng

175
Citations
Cycles of Soil

R. César Izaurralde

2
Citations
Climate Impacts on Agriculture: Implicationsfor Forage and Rangeland Production

R. C. Izaurralde;A. M. Thomson;J. A. Morgan;P. A. Fay

0
Citations