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Crop and Pasture Science Crop and Pasture Science Society
Plant sciences, sustainable farming systems and food quality
Crop & Pasture Science

Crop & Pasture Science

Volume 75 Number 4 2024

CP23078Identification of superior genotypes for leaf architecture traits in Sorghum bicolor through GGE biplot analysis

Runfeng Wang 0000-0002-8212-3674, Yingxing Zhao, Hailian Wang 0000-0002-5536-662X, Erying Chen, Feifei Li, Shaoming Huang 0000-0002-9829-0303, Ling Qin, Yanbing Yang, Yan’an Guan, Bin Liu and Huawen Zhang

Grain sorghum is a food source for people in semi-arid regions; however, its productivity is compromised by its inefficient leaf architecture. Aiming to improve sorghum productivity, the research focused on evaluation of leaf architectural traits and identification of ideotypes with outstanding leaf architecture. Through multi-environment trials, an ideal genotype was selected for best leaf architecture performance, which will be useful as the parental line to optimise sorghum leaf architecture in a breeding program.

Soil salinity adversely affects plant growth and causes considerable losses in cereal crops. In this study, genetic variation in salinity tolerance was evaluated in sea barley (Hordeum marinum ssp. marinum). Based on plant growth-related traits, mineral nutrition and salt stress indices, lines with high yield under stress and non-stress conditions, or showing a small yield loss under salinity constraints, were identified. These lines will be useful for future breeding programs towards salinity tolerance in cereal crops.

CP23080Phenotypic characterisation and evaluation of resistance to Fusarium ear rot, fumonisin contamination and agronomic traits in a collection of maize landraces

Lorenzo Stagnati, Alessandra Lanubile 0000-0002-1868-4469, Giovanna Soffritti, Paola Giorni, Graziano Rossi, Adriano Marocco and Matteo Busconi

Finding new genotypes resistant to Fusarium infection represents an important goal for the improvement of maize cultivation. In this regard, a collection of maize landraces deriving from Emilia-Romagna (Italy) region was studied. These landraces represent starting resources crucial for broadening the genetic bases of maize and introducing new resistant alleles useful in breeding programs targeting multiple pathogens and their associated mycotoxins.

Long-term simulation modelling showed that autumn-sown forage brassicas can serve as a reliable and valuable forage source in drier environments across Australia’s crop–livestock zone. They have a long grazing window and stable production across a range of sowing dates and environments. Integrating forage brassicas into the existing feed base can reduce the frequency and magnitude of on-farm feed deficits in livestock production systems. They can also allow for a safe increase in stocking rates and reduce the need for supplementary feed.

Wheat grown on soils contaminated by arsenic (As) may accumulate toxic levels of As in grains, allowing As to enter the human food chain. The study evaluated the effect of soil zinc (Zn) application on grain As and grain accumulation of Zn in two Zn-biofortified wheat cultivars grown on As-contaminated soil. Soil Zn application decreased grain As accumulation to below the permissible limit of 0.15 mg As kg−1 and simultaneously increased grain Zn accumulation.

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