A5031352740- Plant Pathogens and Fungal Diseases
- Mycotoxins in Agriculture and Food
- Wheat and Barley Genetics and Pathology
- Genetic Mapping and Diversity in Plants and Animals
- Genetics and Plant Breeding
- Plant Disease Resistance and Genetics
- Plant-Microbe Interactions and Immunity
- Quality and Supply Management
- Plant pathogens and resistance mechanisms
- Flexible and Reconfigurable Manufacturing Systems
- Crop Yield and Soil Fertility
- Digital Transformation in Industry
Commonwealth Scientific and Industrial Research Organisation
2020-2025
Agriculture and Food
2021-2025
Institute of Crop Sciences
2023
Chinese Academy of Agricultural Sciences
2023
China Agricultural University
2023
Sichuan Agricultural University
2023
University of Tasmania
2022
Zhejiang University of Technology
2022
Abstract Keymessage In this first QTL mapping study of embryo size in barley, novel and stable were identified candidate genes underlying a significant locus independent kernel based on orthologous analysis comparison the whole-genome assemblies for both parental genotypes population. Embryo, also known as germ, cereal grains plays crucial role plant development. The accounts only small portion grain weight but it is rich nutrients. Larger translates to more nutritious larger store energy...
Abstract Key message This study reported the identification and validation of novel QTL conferring coleoptile length in barley predicted candidate genes underlying largest effect based on orthologous analysis comparison whole genome assemblies for both parental genotypes mapping population. Coleoptile (CL) is one most important agronomic traits cereal crops due to its direct influence optimal depth seed sowing which facilitates better seedling establishment. Varieties with longer coleoptiles...
Abstract Key message Shared changes in transcriptomes caused by Fusarium crown rot infection and drought stress were investigated based on a single pair of near-isogenic lines developed for major locus conferring tolerance to both stresses. (FCR) is devastating disease many areas cereal production worldwide. It well-known that enhances FCR severity but possible molecular relationship between these two stresses remains unclear. To investigate their relationships, we generated several pairs...
Abstract Background Fusarium crown rot (FCR) is a chronic disease in cereal production worldwide. The impact of this highly environmentally dependant and significant yield losses occur mainly drought-affected crops. Results In the study reported here, we evaluated possible relationships between genes conferring FCR resistance drought tolerance using two approaches. first approach studied induced differentially expressed (DEGs) targeting barley one wheat loci against panel curated from...
Small and medium enterprises (SMEs) in the manufacturing industry normally arise as a result of product innovations. Transiting growing into large organizations is critical process for sustainable growth SMEs, this requires developing appropriate production systems. Such development focuses on economics optimization facility layout, capacity, machine utilization. These optimizations are usually achieved using discrete event simulation (DES). However, DES primarily not formulated to give...
Multiple species of Fusarium can infect wheat and barley plants at various stages development. head blight (FHB) refers to the infection spikes developing kernels by these pathogens, crown rot (FCR) infers root, crown, basal stem pathogens. Interestingly, most host genes conferring resistance two diseases are different in both barley, plants’ susceptibility oppositely affected plant height reduced water availability. Available results do not support hypothesis that have effects on biotrophic...
<title>Abstract</title> Embryo, also known as germ, in cereal grains plays a crucial role plant development. The embryo accounts for only small portion of grain weight but it is rich nutrients. Larger translates to more nutritious and larger store energy reserves, which can benefit seed germination seedling establishment. However, reports on quantitative trait loci (QTL) affecting size barley rare. To understand the genetic basis barley, population consisting 201 F9 recombination inbred...
Abstract Coleoptile length (CL) is one of the most important agronomic traits in cereal crops due to its direct influence on optimal depth for seed sowing which facilitates better seedling establishment. Varieties with longer coleoptiles are preferred drought-prone areas where less moisture maintains at top layer soil. Compared wheat, genetic study coleoptile limited barley. Here, we reported a detecting genomic regions associated CL barley by assessing population consisting 201 recombinant...
Abstract Background: Fusarium crown rot is a chronic disease in cereal production worldwide. The impact of this highly environmentally dependant and significant yield losses occur mainly drought-affected crops. Results : In the study reported here, we evaluated possible relationships between genes conferring FCR resistance drought tolerance using two approaches. first approach studied induced DEGs (differentially expressed genes) targeting barley one wheat loci against panel selected with...