Asaf Avneri scite author profile

Asaf Avneri

4Publications

32Citation Statements Received

74Citation Statements Given

How they've been cited

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128

Affiliations

Hebrew University of Jerusalem, Agricultural Research Organization

Publications

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Assessing adaptive requirements and breeding potential of spelt under Mediterranean environment

Curzon

Chandrasekhar

Nashef

et al. 2021

Sci Rep

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The rising demand for spelt wheat (Triticum aestivum ssp. spelta) as a high-value grain crop has raised interest in its introduction into non-traditional spelt growing areas. This study aimed to assess adaptive constrains of spelt under short Mediterranean season. At first screening of a wide spelt collection for phenology and allelic distribution at the photoperiod (PPD) and vernalization (VRN) loci was done. In addition an in-depth phenotypic evaluation of a selected panel (n = 20) was performed, including agronomically important traits and concentration of grain mineral (GMC) and grain protein (GPC) content. Results from both wide screening and in-depth in panel (group of 18 spelt lines and two bread wheat lines) evaluation shows that the major adaptive constraint for spelt under Mediterranean conditions is late heading, caused by day length sensitivity, as evident from phenology and allelic profile (PPD and VRN). All lines carrying the photoperiod-sensitive allele (PPD-D1b) were late flowering (> 120DH). Based on the panel field evaluations those consequently suffer from low grain yield and poor agronomic performances. As for minerals, GMC for all but Zn, significantly correlated with GPC. In general, GMC negatively correlated with yield which complicated the assessment of GMC per-se and challenge the claim for higher mineral content in spelt grains. The exceptions were, Fe and Zn, which did not correlate with yield. Spelt lines showing high Fe and Zn concentration in a high-yield background illustrate their potential for spelt wheat breeding. Improving spelt adaptation to Mediterranean environments could be mediated by introducing the insensitive-PPD-D1a allele to spelt wheat background. Following this breeding path spelt could better compete with bread wheat under short season with limited and fluctuating rain fall.

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Distinguishing between Bread Wheat and Spelt Grains Using Molecular Markers and Spectroscopy

Curzon

Chandrasekhar

Nashef

et al. 2019

J. Agric. Food Chem.

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The increasing demand for spelt products requires the baking industry to develop accurate and efficient tools to differentiate between spelt and bread wheat grains. We subjected a 272-sample spelt-bread wheat set to several potential diagnostic methods. DNA markers for γ-gliadin-D (GAG56D), γ-gliadin-B (GAG56B), and the Q-gene were used, alongside phenotypic assessment of ease-of-threshing and near-infrared spectroscopy (NIRS). The GAG56B and GAG56D markers demonstrated low diagnostic power in comparison to the Q-gene genotyping, which showed full accordance with the threshing phenotype, providing a highly accurate distinction between bread wheat and spelt kernels. A highly reliable Q classification was based on a three-waveband NIR model [Kappa (0.97), R-square (0.93)], which suggested that this gene influences grain characteristics. Our data ruled out a protein concentration bias of the NIRS-based diagnosis. These findings highlight the Q gene and NIRS as important, valuable, but simple tools for distinguishing between bread wheat and spelt.

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Multimodal Earth observation data fusion: Graph-based approach in shared latent space

et al. 2022

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UAS-based imaging for prediction of chickpea crop biophysical parameters and yield

Avneri

Aharon

Brook

et al. 2023

Computers and Electronics in Agriculture

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Asaf Avneri

Assessing adaptive requirements and breeding potential of spelt under Mediterranean environment

Distinguishing between Bread Wheat and Spelt Grains Using Molecular Markers and Spectroscopy

Multimodal Earth observation data fusion: Graph-based approach in shared latent space

UAS-based imaging for prediction of chickpea crop biophysical parameters and yield

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