2026 Ignacio Romagosa: 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	47	2591	2403	105	102	116	6564

Overview

What is he best known for?

The fields of study he is best known for:

Gene
Genetics
Botany

His primary scientific interests are in Hordeum vulgare, Genetics, Gene–environment interaction, Quantitative trait locus and Agronomy. His research combines Linkage disequilibrium and Hordeum vulgare. In general Genetics study, his work on Genetic variation and Adaptation often relates to the realm of Selection, thereby connecting several areas of interest.

His Gene–environment interaction research integrates issues from Evolutionary biology, Regression analysis and Genotypic expression. Ignacio Romagosa has researched Quantitative trait locus in several fields, including Gene mapping, Main effect and Locus. As a member of one scientific family, Ignacio Romagosa mostly works in the field of Agronomy, focusing on Biotechnology and, on occasion, Statistical model, Multivariate analysis and Genetically modified crops.

His most cited work include:

Plant breeding: principles and prospects. (181 citations)
Genotype × environment interaction and adaptation (156 citations)
Mixed models including environmental covariables for studying QTL by environment interaction (124 citations)

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

His primary areas of study are Hordeum vulgare, Agronomy, Genetics, Quantitative trait locus and Botany. His Hordeum vulgare research includes themes of Mediterranean Basin, Association mapping, Gene–environment interaction, Dormancy and Doubled haploidy. His research integrates issues of Regression analysis and Biotechnology in his study of Gene–environment interaction.

As part of his studies on Agronomy, he frequently links adjacent subjects like Mediterranean climate. As a part of the same scientific family, Ignacio Romagosa mostly works in the field of Quantitative trait locus, focusing on Locus and, on occasion, Germplasm. The Botany study combines topics in areas such as Sugar beet, Field experiment and Horticulture.

He most often published in these fields:

Hordeum vulgare (43.69%)
Agronomy (42.72%)
Genetics (28.16%)

What were the highlights of his more recent work (between 2006-2021)?

Hordeum vulgare (43.69%)
Agronomy (42.72%)
Quantitative trait locus (24.27%)

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

His main research concerns Hordeum vulgare, Agronomy, Quantitative trait locus, Genetics and Doubled haploidy. His Hordeum vulgare study integrates concerns from other disciplines, such as Phyllochron, Microsatellite, Association mapping, Gene–environment interaction and Genetic variation. Ignacio Romagosa has included themes like Mediterranean climate and Mediterranean Basin in his Agronomy study.

His studies in Quantitative trait locus integrate themes in fields like Horticulture, Plant breeding, Allele, Locus and Adaptation. His research on Genetics frequently links to adjacent areas such as Genetic diversity. His Doubled haploidy study which covers Botany that intersects with Abiotic component.

Between 2006 and 2021, his most popular works were:

Patterns of genetic diversity and linkage disequilibrium in a highly structured Hordeum vulgare association-mapping population for the Mediterranean basin (91 citations)
Genome-wide association mapping of frost tolerance in barley (Hordeum vulgare L.). (61 citations)
Mixed model association scans of multi-environmental trial data reveal major loci controlling yield and yield related traits in Hordeum vulgare in Mediterranean environments (56 citations)

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

Gene
Genetics
Botany

Ignacio Romagosa mostly deals with Hordeum vulgare, Agronomy, Quantitative trait locus, Genetic variation and Genetics. His Hordeum vulgare study frequently intersects with other fields, such as Phyllochron. His work in Agronomy addresses issues such as Mediterranean Basin, which are connected to fields such as Drought tolerance and Genetic gain.

His Genetic variation research includes elements of Association mapping and Microsatellite. His research investigates the connection between Genetics and topics such as Genetic diversity that intersect with issues in Genome-wide association study. His Mediterranean climate study incorporates themes from Cultivar, Biotechnology, Replicate, Biplot and Gene–environment interaction.

Best Publications

Genotype × environment interaction and adaptation

I. Romagosa;P. N. Fox

626
Citations
Plant breeding: principles and prospects.

M. D. Hayward;N.O. Bosemark;I. Romagosa

185
Citations
Molecular marker-assisted selection for malting quality traits in barley

F. Han;I. Romagosa;S.E. Ullrich;B. L. Jones

174
Citations
Mixed models including environmental covariables for studying QTL by environment interaction

M. Malosetti;J. Voltas;I. Romagosa;S.E. Ullrich

172
Citations
Changes in carbon isotope discrimination in grain cereals from different regions of the western Mediterranean Basin during the past seven millennia. Palaeoenvironmental evidence of a differential change in aridity during the late Holocene

J.L. Araus;A. Febrero;R. Buxo;M.D. Camalich

168
Citations
Barley Science: Recent Advances from Molecular Biology to Agronomy of Yield and Quality

G. A. Slafer;J. L. Molina-Cano;R. Savin;J. L. Araus

166
Citations
Genotype by environment interaction for grain yield and carbon isotope discrimination of barley in Mediterranean Spain

J. Voltas;I. Romagosa;A. Lafarga;A. P. Armesto

147
Citations
The impact of climate change on barley yield in the Mediterranean basin

Davide Cammarano;Salvatore Ceccarelli;Stefania Grando;Ignacio Romagosa

147
Citations
Verification of yield QTL through realized molecular marker- assisted selection responses in a barley cross

Ignacio Romagosa;Feng Han;Steven E. Ullrich;Patrick M. Hayes

140
Citations
Use of the additive main effects and multiplicative interaction model in QTL mapping for adaptation in barley

Ignacio Romagosa;Steven E. Ullrich;Feng Han;Patrick M. Hayes

138
Citations
Patterns of genetic diversity and linkage disequilibrium in a highly structured Hordeum vulgare association-mapping population for the Mediterranean basin

Jordi Comadran;W. T. B. Thomas;F. Á. van Eeuwijk;S. Ceccarelli

133
Citations
Crop water availability in early agriculture: evidence from carbon isotope discrimination of seeds from a tenth millennium BP site on the Euphrates

J. L. Araus;A. Febrero;M. Catala;M. Molist

129
Citations
Multi-environment testing and genotype × environment interaction

P. N. Fox;J. Crossa;I. Romagosa

123
Citations
INTEGRATING STATISTICAL AND ECOPHYSIOLOGICAL ANALYSES OF GENOTYPE BY ENVIRONMENT INTERACTION FOR GRAIN FILLING OF BARLEY. I. INDIVIDUAL GRAIN WEIGHT

J. Voltas;F.A. van Eeuwijk;A. Sombrero;A. Lafarga

118
Citations
The Spanish barley core collection

E. Igartua;M.P. Gracia;J.M. Lasa;B. Medina

116
Citations
Genome-wide association mapping of frost tolerance in barley (Hordeum vulgare L.).

Andrea Visioni;Alessandro Tondelli;Enrico Francia;Alexander Pswarayi

110
Citations
Verification of barley seed dormancy loci via linked molecular markers.

F. Han;S. E. Ullrich;J. A. Clancy;V. Jitkov

107
Citations
Genetic control of duration of pre-anthesis phases in wheat (Triticum aestivum L.) and relationships to leaf appearance, tillering, and dry matter accumulation

Gisela Borràs-Gelonch;Greg J. Rebetzke;Richard A. Richards;Ignacio Romagosa

100
Citations
Mixed model association scans of multi-environmental trial data reveal major loci controlling yield and yield related traits in Hordeum vulgare in Mediterranean environments

J. Comadran;J. R. Russell;A. Booth;A. Pswarayi

100
Citations
Production of large number of doubled haploid plants from barley anthers pretreated with high concentrations of mannitol

L. Cistué;A. Ramos;A. M. Castillo;I. Romagosa

99
Citations
Further evidence supporting Morocco as a centre of origin of barley

J. L. Molina-Cano;M. Moralejo;E. Igartua;I. Romagosa

99
Citations
Genotype by environment interaction and adaptation in barley breeding: basic concepts and methods of analysis

J. Voltas;F.A. van Eeuwijk;E. Igartua;L.G. del Moral

95
Citations
Integrating statistical and ecophysiological analyses of genotype by environment interaction for grain filling of barley II.: Grain growth

J. Voltas;F.A. van Eeuwijk;J.L. Araus;I. Romagosa

93
Citations
Genetic variability in duration of pre-heading phases and relationships with leaf appearance and tillering dynamics in a barley population.

Gisela Borràs;Ignacio Romagosa;Fred van Eeuwijk;Gustavo A. Slafer

91
Citations
Remobilization of Pre-Anthesis Assimilates to the Grain for Grain Only and Dual-Purpose (Forage and Grain) Triticale

Conxita Royo;Jordi Voltas;Ignacio Romagosa

91
Citations
RELATIONSHIP OF EXCISED-LEAF WATER LOSS RATE AND YIELD OF DURUM WHEAT IN DIVERSE ENVIRONMENTS

J. M. Clarke;I. Romagosa;S. Jana;J. P. Srivastava

91
Citations
Mineral accumulation, carbon isotope discrimination and indirect selection for grain yield in two-rowed barley grown under semiarid conditions

J. Voltas;I. Romagosa;P. Muñoz;J.L. Araus

87
Citations