Your search keyword '"Nashef, Kamal"' showing total 10 results

1. Stem traits promote wheat climate-resilience.

Author

Ntawuguranayo, Simeon, Zilberberg, Michael, Nashef, Kamal, Bonfil, David J., Bainsla, Naresh Kumar, Piñera-Chavez, Francisco J., Reynolds, Matthew Paul, Zvi Peleg, and Roi Ben-David

Subjects

WHEAT breeding, WHEAT, GRAIN size, BIOMASS, CARBOHYDRATES

Abstract

Introduction: Wheat grain filling processes under post-anthesis stress scenarios depend mainly on stem traits and remobilization of stem water-soluble carbohydrates (WSC). Methods: A diverse panel of advanced semi-dwarf spring wheat lines, representing a natural variation in stem traits (WSC content, stem diameter, peduncle length, and stem wall width), was used to identify specific traits that reliably reflect the relationship between WSC and grain yield. The panel was phenotyped under various environmental conditions: well-watered, waterlimited, and heat stress in Mexico, and terminal-drought in Israel. Results: Environmental stresses reduced grain yield (from 626 g m-2 under wellwatered to 213 g m-2 under heat), lower internode diameter, and peduncle length. However, stem-WSC generally peaked 3-4 weeks after heading under all environmental conditions except heat (where it peaked earlier) and expressed the highest values under water-limited and terminal-drought environments. Increased investment in internode diameter and peduncle length was associated with a higher accumulation of stem WSC, which showed a positive association with yield and kernel weight. Across all environments, there were no apparent trade-offs between increased crop investment in internode diameter, peduncle length, and grain yield. Discussion: Our results showed that selecting for genotypes with higher resource investment in stem structural biomass, WSC accumulation, and remobilization could be a valuable strategy to ameliorate grain size reduction under stress without compromising grain yield potential. Furthermore, easy-tomeasure proxies for WSC (stem diameter at specific internodes and length of the last internode, i.e., the peduncle) could significantly increase throughput, potentially at the breeding scale. [ABSTRACT FROM AUTHOR]

Published

2024

2. Assessing adaptive requirements and breeding potential of spelt under Mediterranean environment

Author

Curzon, Arie Y., Kottakota, Chandrasekhar, Nashef, Kamal, Abbo, Shahal, Bonfil, David J., Reifen, Ram, Bar-El, Shimrit, Rabinovich, On, Avneri, Asaf, and Ben-David, Roi

Published

2021

3. Emmer Wheat Eco-Geographic and Genomic Congruence Shapes Phenotypic Performance under Mediterranean Climate.

Author

Fadida-Myers, Aviya, Fuerst, Dana, Tzuberi, Aviv, Yadav, Shailesh, Nashef, Kamal, Roychowdhury, Rajib, Sansaloni, Carolina Paola, Hübner, Sariel, and Ben-David, Roi

Subjects

EMMER wheat, MEDITERRANEAN climate, PHENOTYPES, WHEAT, PHENOTYPIC plasticity, ORGANIC farming, SUBSPECIES

Abstract

Emmer wheat (Triticum turgidum ssp. dicoccum) is one of the world's oldest domesticated crops, and it harbors a potentially rich reservoir of agronomic and nutritional quality trait variations. The growing global demand for plant-based health-food niche markets has promoted new commercial interest in ancient grains, including Emmer wheat. Although T. dicoccum can also perform well under harsh environments, its cultivation along the Mediterranean agro-ecosystems is sparse. Here, we analyze a unique tetraploid wheat collection (n = 121) representing a wide geographic range of Emmer accessions, using 9897 DArTseq markers and on-field phenotypic characterization to quantify the extent of diversity among populations and the interactions between eco-geographic, genetic, and phenotypic attributes. Population genomic inferences based on the DArTseq data indicated that the collection could be split into four distinguished clusters in accordance with their eco-geographic origin although significant phenotypic variation was observed within clusters. Superior early vegetative vigor, shorter plant height, and early phenology were observed among emmer wheat accessions from Ethiopia compared to accessions from northern regions. This adaptive advantage highlights the potential of emmer wheat as an exotic germplasm for wheat improvement through breeding. The direct integration of such germplasm into conventional or organic farming agro-systems under the Mediterranean basin climate is also discussed. [ABSTRACT FROM AUTHOR]

Published

2022

4. The Israeli–Palestinian wheat landraces collection: restoration and characterization of lost genetic diversity.

Author

Frankin, Sivan, Kunta, Srinivas, Abbo, Shahal, Sela, Hanan, Goldberg, Ben Z, Bonfil, David J, Levy, Avraham A, Avivi‐Ragolsky, Naomi, Nashef, Kamal, Roychowdhury, Rajib, Faraj, Tomer, Lifshitz, Dikla, Mayzlish‐Gati, Einav, and Ben‐David, Roi

Subjects

WHEAT, GREEN Revolution, GERMPLASM, DURUM wheat, COLLECTIONS

Abstract

BACKGROUND: For over a century, genetic diversity of wheat worldwide was eroded by continual selection for high yields and industrial demands. Wheat landraces cultivated in Israel and Palestine demonstrate high genetic diversity and a potentially wide repertoire of adaptive alleles. While most Israeli‐Palestinian wheat landraces were lost in the transition to 'Green Revolution' semi‐dwarf varieties, some germplasm collections made at the beginning of the 20th century survived in gene banks and private collections worldwide. However, fragmentation and poor conservation place this unique genetic resource at a high risk of genetic erosion. Herein, we describe a long‐term initiative to restore, conserve, and characterize a collection of Israeli and Palestinian wheat landraces (IPLR). RESULTS: We report on (i) the IPLR construction (n = 932), (ii) the historical and agronomic context to this collection, (iii) the characterization and assessment of the IPLR's genetic diversity, and (iv) a data comparison from two distinct subcollections within IPLR: a collection made by N. Vavilov in 1926 (IPLR‐VIR) and a later one (1979–1981) made by Y. Mattatia (IPLR‐M). Though conducted in the same eco‐geographic space, these two collections were subjected to considerably different conservation pathways. IPLR‐M, which underwent only one propagation cycle, demonstrated marked genetic and phenotypic variability (within and between accessions) in comparison with IPLR‐VIR, which had been regularly regenerated over ∼90 years. CONCLUSION: We postulate that long‐term ex situ conservation involving human and genotype × environment selection may significantly reduce accession heterogeneity and allelic diversity. Results are further discussed in a broader context of pre‐breeding and conservation. © 2019 Society of Chemical Industry [ABSTRACT FROM AUTHOR]

Published

2020

5. Effect of GA-sensitivity on wheat early vigor and yield components under deep sowing.

Author

Amram, Avishay, Golan, Guy, Peleg, Zvi, Fadida-Myers, Aviya, Nashef, Kamal, and Ben-David, Roi

Subjects

COLEOPTILES, GIBBERELLINS, SEEDLINGS

Abstract

Establishment of seedlings is a key factor in achievement of uniform field stands and, consequently, stable yields. Under Mediterranean conditions, soil moisture in the upper layer is limited and seedlings may be exposed to frequent dehydration events. The presence of the Reduced height (Rht)-B1b and Rht-D1b semi-dominant dwarfing alleles results in insensitivity to gibberellin (GAI) and, hence, poor emergence from deep sowing. Introduction of alternative dwarfing genes and, thereby, preservation of the gibberellin response (GAR) and coleoptile length, contributes to better emergence from deep sowing. Initially 47 wheat cultivars carrying different Rht alleles were screened for their ability to emerge from deep sowing, and then 17 of them were selected for detailed physiological characterization in the field. The modern wheat lines containing GAI alleles showed significantly lower percentages of emergence from deep sowing than the GAR lines, i.e., 52 and 74%, respectively. Differences in early developmental stages were associated with grain yield, as indicated by a reduction of 37.3% in the modern GAI cultivars. Our results demonstrate the potential of alternative dwarfing genes for improving seedling establishment and grain yields in Mediterranean-like environments. [ABSTRACT FROM AUTHOR]

Published

2015

6. In-Field Comparative Study of Landraces vs. Modern Wheat Genotypes under a Mediterranean Climate.

Author

Frankin, Sivan, Roychowdhury, Rajib, Nashef, Kamal, Abbo, Shahal, Bonfil, David J., and Ben-David, Roi

Subjects

MEDITERRANEAN climate, GREEN Revolution, GENOTYPES, WATER supply, GRAIN yields

Abstract

The Near East climate ranges from arid to a Mediterranean, under which local wheat landraces have been grown for over millennia, assumingly accumulating a unique repertoire of genetic adaptations. In the current study, we subjected a subset of the Israeli Palestinian Landraces (IPLR) collection (n = 19: durum and bread wheat landraces, modern wheat cultivars, and landraces mixtures) to full-field evaluation. The multifield experiment included a semiarid site (2018–2019, 2019–2020) under low (L) and high (H) supplementary irrigation, and a Mediterranean site (2019–2020). Water availability had a major impact on crop performance. This was reflected in a strong discrimination between environments for biomass productivity and yield components. Compared to landraces, modern cultivars exhibited significantly higher grain yield (GY) across environments (+102%) reflecting the effect of the Green Revolution. However, under the Gilat19 (L) environment, this productivity gap was significantly reduced (only +39%). Five excelling landraces and the durum mix exhibited good agronomic potential across all trails. This was expressed in relatively high GY (2.3–2.85 t ha−1), early phenology (86–96 days to heading) and lodging resistance. Given the growing interest of stakeholders and consumers, these might be considered future candidates for the local artisanal wheat grain market. Yet, this step should be taken only after establishing an adjustable field management protocol. [ABSTRACT FROM AUTHOR]

Published

2021

7. Cover Image, Volume 100, Issue 11.

Author

Frankin, Sivan, Kunta, Srinivas, Abbo, Shahal, Sela, Hanan, Goldberg, Ben Z, Bonfil, David J, Levy, Avraham A, Avivi‐Ragolsky, Naomi, Nashef, Kamal, Roychowdhury, Rajib, Faraj, Tomer, Lifshitz, Dikla, Mayzlish‐Gati, Einav, and Ben‐David, Roi

Subjects

PALESTINIAN citizens of Israel, IMAGE

Abstract

The cover image is based on the Research Article The Israeli Palestinian wheat landraces collection: restoration and characterization of lost genetic diversity by Sivan Frankin et al., https://doi.org/10.1002/jsfa.9822. [ABSTRACT FROM AUTHOR]

Published

2020

8. Unlocking the Genetic Diversity within A Middle-East Panel of Durum Wheat Landraces for Adaptation to Semi-arid Climate.

Author

Abu-Zaitoun, Salam Y., Shtaya, Munqez J., Jamous, Rana M., Mallah, Omar B., Ali-Shtayeh, Mohammed S., Chandrasekhar, Kottakota, Nashef, Kamal, Ben-David, Roi, Assili, Siwar, Peleg, Zvi, Sela, Hanan, Distelfeld, Assaf, and Alhajaj, Nawal

Subjects

WHEAT breeding, CLIMATE change, DROUGHTS, GENE expression in plants

Abstract

Drought is the major environmental factor limiting wheat production worldwide. Developing novel cultivars with greater drought tolerance is the most viable solution to ensure sustainable agricultural production and alleviating threats to food-security. Here we established a core-collection of landraces and modern durum wheat cultivars (WheatME, n = 36), from the Middle East region (Jordan, Palestine and Israel) aiming at unlocking the genetic and morpho-physiological adaptation to semi-arid environment conditions. Interestingly, genetic analysis of the WheatME core-collection could not distinguish the landraces according to their country of origin. Field-based evaluation of the core-collection conducted across range of contrasting environmental conditions: Til-Palestine, Bet-Dagan-Israel and Irbid-Jordan with annual precipitation of 500 mm, 360 mm and 315 mm, respectively. The Til environment showed highest grain yield while the Irbid environment showed the lowest values. Analysis of variance showed a significant Genotype × Environment interaction for plant phenology traits (plant height and heading date) and productivity traits (1000-kernel weight, and grain yield). Principal component analysis showed three main cultivar groups: High yielding lines (modern durum cultivars, and landraces), tall late flowering landraces, and landraces with high grain weight. This knowledge could serve as basis for future breeding efforts to develop new elite cultivars adapted to the Mediterranean Basin's semi-arid conditions. [ABSTRACT FROM AUTHOR]

Published

2018

9. Genetic improvement of wheat early vigor promote weed-competitiveness under Mediterranean climate.

Author

Aharon, Shlomi, Fadida-Myers, Aviya, Nashef, Kamal, Ben-David, Roi, Lati, Ran N., and Peleg, Zvi

Subjects

*MEDITERRANEAN climate, *VITALITY, *WHEAT breeding, *WHEAT, *GIBBERELLIC acid, *HERBICIDE resistance

Abstract

• Modifications of wheat early vigor promotes higher weed-competitiveness. • Image-based phenotyping offers high-throughput solution for early vigor traits selection. • We demonstrate the potential alternative dwarfing genes to improve weed-competitiveness. • G × E × M interaction have strong effect on early vigor and weed-competitiveness. • Integration of early vigor trait into wheat breeding program can support sustainable production. Chemical weed-control is the most effective practice for wheat, however, rapid evolution of herbicide-resistant weeds threat food-security and calls for integration of non-chemical practices. We hypothesis that integration of alternative GA-responsive dwarfing genes into elite wheat cultivars can promote early vigor and weed-competitiveness under Mediterranean climate. We develop near-isogenic lines of bread wheat cultivars with GAR dwarfing genes and evaluate them for early vigor and weed-competitiveness under various environmental and management conditions to identify promising NIL for weed-competitiveness and grain yield. While all seven NILs responded to external gibberellic acid application, they exhibited differences in early vigor. Greenhouse and field evaluations highlighted NIL OC1 (Rht8 and Rht12) as a promising line, with significant advantage in canopy early vigor over its parental. To facilitate accurate and continuous early vigor data collection, we applied non-destructive image-based phenotyping approaches which offers non-expensive and end-user friendly solution for selection. NIL OC1 was tested under different weed density level, infestation waves, and temperatures and highlight the complex genotypic × environmental × management interactions. Our findings demonstrate the potential of genetic modification of dwarfing genes as promising approach to improve weed-competitiveness, and serve as basis for future breeding efforts to support sustainable wheat production under semi-arid Mediterranean climate. [ABSTRACT FROM AUTHOR]

Published

2021

10. Pre-anthesis spike growth dynamics and its association to yield components among elite bread wheat cultivars (Triticum aestivum L. spp.) under Mediterranean climate.

Author

Roychowdhury, Rajib, Zilberman, Orian, Chandrasekhar, Kottakota, Curzon, Arie Y., Nashef, Kamal, Abbo, Shahal, Slafer, Gustavo A., Bonfil, David J., and Ben-David, Roi

Subjects

*WHEAT, *MEDITERRANEAN climate, *EMMER wheat, *WHEAT breeding, *CULTIVARS, *COMMODITY futures

Abstract

Wheat (Triticum spp.) grain yield (GY) is highly associated with grain number per unit area (GN m-2). Biomass accumulation and partitioning are essential to understand pre-anthesis spike growth dynamics which determines spike dry matter at anthesis (SDMa) - a GN determinant. Spike growth takes place during the stem elongation period (SE), from terminal spikelet to anthesis, following leaf and spikelet initiation (LS) from sowing to terminal spikelet. In this study, bread wheat cultivars were examined under Mediterranean semi-arid conditions to determine (i) the varietal differences in pre-anthesis phase duration, (ii) whether this variability influences biomass partitioning and spike-related traits, and (iii) to what extent, the genotypic variations in pre-anthesis phase duration and spike growth are associated with yield components. A panel of Israeli commercial bread wheat cultivars were grown in the field during 2016–17 (three environments) and 2017–18 (two environments) and characterized for pre-anthesis phases, floral conditions and spike fertility via histological measurements; spike traits, dry matter accumulation, partitioning at anthesis and maturity and for yield components. Significant variability in the timing of pre-anthesis phases was detected within the tested panel for both LS and SE phases. LS duration was positively associated with growing degree days (GDD) to anthesis across environments (0.72–0.90) while variation in SE was related with differences in GDD to anthesis but to a lesser extent and not in all environments (0.47–0.79). In addition, LS duration, and occasionally SE, were favourably related with a higher dry matter of fertile florets spike-1 (at anthesis) and SDM (at both anthesis and maturity). Principal component analysis (PCA) clearly separates environments and to a lesser extent cultivars within each environment. Two cultivar pairs 'Zahir-Yuval' and 'Negev-Gedera', which flowered concurrently, showed significant differences in the durations of LS and SE phases across most of the environments. Longer LS, in cultivars Zahir and Negev, exhibited increased spikelets spike-1, whereas longer SE (e.g., in Yuval and Gedera) enhanced spike fertility through improving the survival rate of floret primordia (FSR%) of central spikelets. However, there was a trade-off for FSR at the proximal and distal spike portions, resulting in lower grain set (%) leading to reduction of final GN (or GY) in cultivars with longer SE. In the tested panel and under our environmental conditions characterized by growing cycle and Mediterranean climate, the duration of both LS and SE contribute to spike fertility, but LS duration seemed a stronger driver than SE for GN and yield enhancement. Our results highlight the importance of pre-anthesis phases, especially the role of LS in wheat yield increment during the short growing cycle. The varietal combination with variable LS and SE duration could be implemented in breeding pipelines and used as pre-breeding materials for GN improvement. Furthermore, the findings will encourage pre-anthesis traits adoption in Mediterranean bread wheat future breeding programs. [Display omitted] • Variability in the duration of LS and SE of pre-anthesis was detected among bread wheat lines. • Under shorter wheat growing cycle, extended LS is more influential on grain number (GN) and weight (GW) than SE duration. • Longer SE enhanced floret survival rate of central spikelets with clear trade-off at the basal and apical spikelets. [ABSTRACT FROM AUTHOR]

Published

2023