Journal Articles

Permanent URI for this collectionhttps://mro.massey.ac.nz/handle/10179/7915

Browse

Filters

2023 - 20252

Settings

Author: search.filters.author.Singh JSubject: search.filters.subject.microstructure

Search Results

Now showing 1 - 2 of 2
  • Thumbnail Image
    Item
    Physico-Chemical, Microstructural, and Cooking Characteristics of Faba Bean (Vicia faba) Varieties From New Zealand
    (Wiley Periodicals LLC, 2025-09-01) Navneet; Singh J; Ajomiwe NI; Kaur L
    This research examines the physical and microstructural properties of New Zealand faba beans (Vicia faba), with a focus on their influence on swelling, hydration, and cooking characteristics. Four native varieties (Early Long Pod, Evergreen, Coles Dwarf, and Janet) were studied. No statistically significant differences were found in the seed physical characteristics, including sphericity, equivalent diameter, thousand kernel weight, seed volume, and surface area, among the varieties. The faba bean seeds showed high levels of protein (24%–27%) and starch content (35%–39%), with Coles Dwarf exhibiting a significantly higher protein content. Cooking times varied among the varieties and were decreased by at least 30 min for all varieties when seeds were soaked before cooking. Evergreen seeds took the least time to cook, while those from Janet required the longest time, which was significantly higher than the other varieties, especially when soaked faba beans were used for cooking. These results were in accordance with the scanning electron microscopy (SEM) results, which revealed significant differences in cotyledon cell wall thickness and surface ridge morphology. Despite a relatively high hydration capacity, Janet required the longest cooking time, suggesting that its thicker cotyledon cell walls and folded surface topography may limit thermal softening despite adequate water uptake. The rapid visco analyzer (RVA) results also showed that the Janet flour exhibited significantly higher peak viscosity, indicating strong water-holding and gelation potential during heating. The Coles Dwarf variety, which exhibited the highest protein content, displayed pronounced surface ridges but showed a significantly lower hydration index, highlighting how macronutrient composition and microstructure jointly influence water uptake and pasting behavior. These results highlight the varying suitability of each variety for different food applications, considering their distinct physico-chemical and cooking properties.
  • Thumbnail Image
    Item
    High Protein Yangyu jiaotuan (洋芋搅团): In Vitro Oral-Gastro-Small Intestinal Starch Digestion and Some Physico-Chemical, Textural, Microstructural, and Rheological Properties
    (MDPI (Basel, Switzerland), 2023-06-23) Zeng F; Abhilasha A; Chen Y; Zhao Y; Liu G; Kaur L; Singh J; Rodríguez‑García ME
    Biomimetic foods are expected to have potential health benefits for the management and prevention of chronic diseases, such as diabetes and cardiovascular disease. In the current research, two commercially available and affordable plant proteins (soy protein isolate-SPI and pea protein isolate-PPI) at two levels (5%, 10%) were added to the Yangyu jiaotuan with the objective of developing a product with reduced glycaemic properties and high protein content while maintaining its original taste and texture. The results showed that several important textural properties such as hardness and chewiness did not change significantly during the refrigerated storage. The storage modulus G' increased with refrigerated storage time for different samples, but there were significant differences among the five samples (with and without protein addition) with respect to frequency dependence during rheological measurements. The in vitro starch digestion experiments showed that the starch hydrolysis of Yangyu jiaotuan decreased considerably (by up to 42.08%) with the increase in PPI content and during refrigerated storage due to starch retrogradation. Protein has protected the microstructure and there was less damage when compared to samples without protein. The bimodal peaks of the particle size distribution curves showed that the newly developed Yangyu jiaotuan contains two different sizes of particles; the smaller particles (~30 μm) corresponded to PPI and starch granules, while the larger particles corresponded to the fragments of the gel network of the starch matrix. Based on the above results, Yangyu jiaotuan mixed with pea protein is a convenient potato staple food product, which complies with the biomimetic potato food very well.