Wheat grain storage at moisture milling: Control of protein quality and bakery performance

Meneghetti, Volnei Luiz; Pohndorf, Ricardo Scherer; Biduski, Bárbara; Zavareze, Elessandra da Rosa; Gutkoski, Luiz Carlos; Elias, M. C.

doi:10.1111/jfpp.13974

Cited by 6 publications

(3 citation statements)

References 24 publications

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“…Grains undergo many changes during storage. Their nutrients' composition and functionality depend on their moisture content and storage temperature (Meneghetti et al, 2019). Higher moisture during storage favor mold growth and aflatoxins production (Afzal et al, 2017).…”

Section: Effects Of Temperature and Moisture During Storage Onmentioning

confidence: 99%

Postharvest losses in food grains – A Review

Abdullahi

Dandago

2021

Turkish Journal of Food and Agriculture Sciences

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Grains (cereals and legumes) are universal foods that provide calories, proteins, essential minerals and vitamins. They are essential to the nutrition of many including infants and children. Attack by insects and microorganisms, particularly fungi, during drying, storage and processing, affects the quality, safety and market value of grains. Fungal attacks before or during drying can be disastrous, the effect can persist throughout the supply chain. Postharvest grain losses pose challenges to food and nutritional security, public health, and many developing nations' economy. Postharvest storage structures and packaging materials are expected to extend the shelf life of the grains by protecting them from insects, microorganisms, environmental factors and making the microenvironment unfavorable for insect and microbial activities. Traditional storage and packaging materials are highly inefficient in this sense and are associated with quality degradation. Traditional storage and packaging materials commonly used by farmers, mostly in developing countries, include granary, crib, wooden box, gunny bag and polypropylene woven bag. Modern storage and packaging materials commonly used are metal silo and hermetic bags; they are effective but unfortunately cannot be afforded by most farmers in developing countries. The article reviewed postharvest storage management of cereals and legumes. Literature was gathered through a comprehensive literature review. The use of various traditional storage and packaging materials for grains was debated. Techniques for the prevention of postharvest losses were extensively discussed, emphasis was given to novel technology and the use of natural insecticides. Challenges associated with controlling postharvest losses were also summarised. In the end, research gaps were identified and recommendations were provided about minimizing grain contamination and postharvest losses.

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Section: Effects Of Temperature and Moisture During Storage Onmentioning

confidence: 99%

Postharvest losses in food grains – A Review

Abdullahi

Dandago

2021

Turkish Journal of Food and Agriculture Sciences

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“…Important global arable crops include wheat, maize, canola, rice, soybean, and barley due to their nutritional importance, functional properties, and commodity value. Grain quality of commercially grown crops is influenced by a range of factors including cultivation practices, environment, harvest timing, grain handling, storage management and transportation [1][2][3][4][5][6][7]. Spatial variation observed in grain yields can be due to soil type, topography, and interactions with environment (e.g., frost and water availability) within and across fields and farms and is well recognized as a driver of variation in grain quality.…”

Section: Introductionmentioning

confidence: 99%

Technologies and Data Analytics to Manage Grain Quality On-Farm: A Review

Walker¹,

Assadzadeh²,

Wallace³

et al. 2023

Preprint

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“…Important global arable crops include wheat, maize, canola, rice, soybean and barley due to their nutritional importance, functional properties, and commodity value. The grain quality of commercially grown crops is influenced by a range of factors, including cultivation practices, environment, harvest timing, grain handling, storage management and transportation [1][2][3][4][5][6][7]. The spatial variation observed in grain yields can be due to soil type, topography and interactions with the environment (e.g., frost and water availability) within and across fields and farms and is well recognized as a driver of variation in grain quality.…”

Section: Introductionmentioning

confidence: 99%

Technologies and Data Analytics to Manage Grain Quality On-Farm—A Review

et al. 2023

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Grains intended for human consumption or feedstock are typically high-value commodities that are marketed based on either their visual characteristics or compositional properties. The combination of visual traits, chemical composition and contaminants is generally referred to as grain quality. Currently, the market value of grain is quantified at the point of receival, using trading standards defined in terms of visual criteria of the bulk grain and chemical constituency. The risk for the grower is that grain prices can fluctuate throughout the year depending on world production, quality variation and market needs. The assessment of grain quality and market value on-farm, rather than post-farm gate, may identify high- and low-quality grain and inform a fair price for growers. The economic benefits include delivering grain that meets specifications maximizing the aggregate price, increasing traceability across the supply chain from grower to consumer and identifying greater suitability of differentiated products for high-value niche markets, such as high protein product ideal for plant-based proteins. This review focuses on developments that quantify grain quality with a range of spectral sensors in an on-farm setting. If the application of sensor technologies were expanded and adopted on-farm, growers could identify the impact and manage the harvesting operation to meet a range of quality targets and provide an economic advantage to the farming enterprise.

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Wheat grain storage at moisture milling: Control of protein quality and bakery performance

Cited by 6 publications

References 24 publications

Postharvest losses in food grains – A Review

Postharvest losses in food grains – A Review

Technologies and Data Analytics to Manage Grain Quality On-Farm: A Review

Technologies and Data Analytics to Manage Grain Quality On-Farm—A Review

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