Martin P Boer

Overview

Explore the profile of Martin P Boer including associated specialties, affiliations and a list of published articles.

Snapshot

Articles 33

Citations 615

Followers 0

Related Specialties

Genetics

Biology

Public Health

Top 10 Co-Authors

Fred A van Eeuwijk

Chaozhi Zheng

Marcos Malosetti

Cajo J F Ter Braak

Wenhao Li

Daniela Bustos-Korts

Ronny V L Joosen

Joost J B Keurentjes

George A K van Voorn

Andreas Hund

Published In

Genetics

Theor Appl Genet

Front Plant Sci

J Exp Bot

Math Biosci

Affiliations

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Recent Articles

Modeling QTL-by-environment interactions for multi-parent populations

Li W, Boer M, Joosen R, Zheng C, Percival-Alwyn L, Cockram J, et al.

Front Plant Sci . 2024 Aug; 15:1410851. PMID: 39145196

Multi-parent populations (MPPs) are attractive for genetic and breeding studies because they combine genetic diversity with an easy-to-control population structure. Most methods for mapping QTLs in MPPs focus on the...

A complete chromosome substitution mapping panel reveals genome-wide epistasis in Arabidopsis

Wijnen C, Botet R, van de Belt J, Deurhof L, de Jong H, de Snoo C, et al.

Heredity (Edinb) . 2024 Jul; 133(3):198-205. PMID: 38982296

Chromosome substitution lines (CSLs) are tentatively supreme resources to investigate non-allelic genetic interactions. However, the difficulty of generating such lines in most species largely yielded imperfect CSL panels, prohibiting a...

A conceptual framework for the dynamic modeling of time-resolved phenotypes for sets of genotype-environment-management combinations: a model library

van Voorn G, Boer M, Truong S, Friedenberg N, Gugushvili S, McCormick R, et al.

Front Plant Sci . 2023 Jun; 14:1172359. PMID: 37389290

Introduction: Dynamic crop growth models are an important tool to predict complex traits, like crop yield, for modern and future genotypes in their current and evolving environments, as those occurring...

Genetic Mapping of Genotype-by-Ploidy Effects in

Wijnen C, Becker F, Okkersen A, de Snoo C, Boer M, van Eeuwijk F, et al.

Genes (Basel) . 2023 Jun; 14(6). PMID: 37372341

Plants can express different phenotypic responses following polyploidization, but ploidy-dependent phenotypic variation has so far not been assigned to specific genetic factors. To map such effects, segregating populations at different...

Whole genome resequencing and phenotyping of MAGIC population for high resolution mapping of drought tolerance in chickpea

Thudi M, Samineni S, Li W, Boer M, Roorkiwal M, Yang Z, et al.

Plant Genome . 2023 May; 17(1):e20333. PMID: 37122200

Terminal drought is one of the major constraints to crop production in chickpea (Cicer arietinum L.). In order to map drought tolerance related traits at high resolution, we sequenced multi-parent...

statgenMPP: an R package implementing an IBD-based mixed model approach for QTL mapping in a wide range of multi-parent populations

Li W, Boer M, van Rossum B, Zheng C, Joosen R, van Eeuwijk F

Bioinformatics . 2022 Oct; 38(22):5134-5136. PMID: 36193999

Motivation: Multi-parent populations (MPPs) are popular for QTL mapping because they combine wide genetic diversity in parents with easy control of population structure, but a limited number of software tools...

Two-dimensional P-spline smoothing for spatial analysis of plant breeding trials

Piepho H, Boer M, Williams E

Biom J . 2022 Jun; 64(5):835-857. PMID: 35692062

Large agricultural field trials may display irregular spatial trends that cannot be fully captured by a purely randomization-based analysis. For this reason, paralleling the development of analysis-of-variance procedures for randomized...

Identification of environment types and adaptation zones with self-organizing maps; applications to sunflower multi-environment data in Europe

Bustos-Korts D, Boer M, Layton J, Gehringer A, Tang T, Wehrens R, et al.

Theor Appl Genet . 2022 May; 135(6):2059-2082. PMID: 35524815

We evaluate self-organizing maps (SOM) to identify adaptation zones and visualize multi-environment genotypic responses. We apply SOM to multiple traits and crop growth model output of large-scale European sunflower data....

A two-stage approach for the spatio-temporal analysis of high-throughput phenotyping data

Perez-Valencia D, Rodriguez-Alvarez M, Boer M, Kronenberg L, Hund A, Cabrera-Bosquet L, et al.

Sci Rep . 2022 Feb; 12(1):3177. PMID: 35210494

High throughput phenotyping (HTP) platforms and devices are increasingly used for the characterization of growth and developmental processes for large sets of plant genotypes. Such HTP data require challenging statistical...

10.

An IBD-based mixed model approach for QTL mapping in multiparental populations

Li W, Boer M, Zheng C, Joosen R, van Eeuwijk F

Theor Appl Genet . 2021 Aug; 134(11):3643-3660. PMID: 34342658

The identity-by-descent (IBD)-based mixed model approach introduced in this study can detect quantitative trait loci (QTLs) referring to the parental origin and simultaneously account for multilevel relatedness of individuals within...