Influences of Milling Degree on Zinc Bioavailability in Rice Grains Varied in Zinc and Phytic Acid Levels

doi:10.1016/j.rsci.2025.10.007

Rice Science ›› 2026, Vol. 33 ›› Issue (1): 25-29.DOI: 10.1016/j.rsci.2025.10.007

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Influences of Milling Degree on Zinc Bioavailability in Rice Grains Varied in Zinc and Phytic Acid Levels

Huo Shaojie¹^,³, Lin Jiaqi¹, Sun Yuxuan¹, Wu Dianxing¹^,³, Shu Xiaoli¹^,³(), Wang Yin²()

¹State Key Laboratory of Rice Biology and Breeding / Key Lab of the Ministry of Agriculture and Rural Affairs for Nuclear Agricultural Sciences / Institute of Nuclear Agricultural Sciences, Zhejiang University, Hangzhou 310029, China
²Key Laboratory of the Ministry of Agriculture and Rural Affairs for Creative Agriculture / Institute of Rural Development, Zhejiang Academy of Agricultural Sciences, Hangzhou 310021, China
³Hainan Institute, Zhejiang University / Yazhou Bay Science and Technology City, Yazhou District, Sanya 572025, China

Received:2025-07-07 Accepted:2025-09-15 Online:2026-01-28 Published:2026-02-03
Contact: Shu Xiaoli (shuxl@zju.edu.cn);Wang Yin (wangyin@zaas.an.cn)

Abstract

Huo Shaojie, Lin Jiaqi, Sun Yuxuan, Wu Dianxing, Shu Xiaoli, Wang Yin. Influences of Milling Degree on Zinc Bioavailability in Rice Grains Varied in Zinc and Phytic Acid Levels[J]. Rice Science, 2026, 33(1): 25-29.

Figures/Tables 1

Fig. 1. Phosphorus (P), zinc (Zn), and phytic acid (PA) contents, as well as Zn bioavailability in brown rice and rice with different degrees of milling (DOM) in four doubled haploid (DH) lines. A, Synchrotron X-ray fluorescence microscopy of total P and Zn accumulation in brown rice. B and C, Concentrations of Zn (B) and PA (C) in brown rice. The same lowercase letters above bars indicate no significant differences among the four lines at the P < 0.05 level by Duncan’s multiple range test. D, Fitted curve of DOM as a function of milling duration at two stages and double-exponential decay (R2 > 0.98) for DH1. Ⅰ, Bran fraction (0% < DOM < 9%); Ⅱ, Outer endosperm fraction (9% < DOM < 15%); Ⅲ, Middle endosperm fraction (15% < DOM < 25%); Ⅳ, Core endosperm fraction (DOM > 25%). E‒G, Zn (E) and PA (F) concentrations, and the ratio of PA to Zn (G) of four lines under different DOM. The curve was fitted with an exponential one-phase decay model. The same lowercase letters indicate no significant differences among the contents at different DOM for each line at the P < 0.05 level. H and I, Zn bioaccessibility (H) and bioavailability (I) of four DH lines at different DOM. The same lowercase letters above bars indicate no significant differences at different DOM for each line at the P < 0.05 level. J, Correlations among different parameters. *, P < 0.05. Zn1, Zn bioaccessibility; Zn2, Zn uptake; Zn3, Bioavailable Zn content; PA/Zn, The ratio of PA to Zn; TZn, Total Zn levels; TP, Total phosphorus; IP, Inorganic phosphorus; Pr, Protein. Data are mean ± SD (n = 3) in B, C, and E‒I.

References 17

[1]	Allen L, de Benoist B, Hurrell R. 2006. Guidelines on Food Fortification with Micronutrients. Geneva, Switzerland: World Health Organization and Food and Agricultural Organization of the United Nations.
[2]	Bouis H E, Welch R M. 2010. Biofortification: A sustainable agricultural strategy for reducing micronutrient malnutrition in the global south. Crop Sci, 50(S1): S20-S32.
[3]	Chen Y, Wei Y D. 2023. Study on the influence of moderate grinding on the quality of Jilin rice. China Food Saf, (23): 153-156. (in Chinese with English abstract)
[4]	Gupta S, Brazier A K M, Lowe N M. 2020. Zinc deficiency in low-and middle-income countries: Prevalence and approaches for mitigation. J Hum Nutr Diet, 33(5): 624-643.
[5]	Kumar A, Lal M K, Kar S S, et al. 2017. Bioavailability of iron and zinc as affected by phytic acid content in rice grain. J Food Biochem, 41(6): e12413.
[6]	Li J, Yang S, Zhong Z M, et al. 2025. Effects of degree of milling on bran layer structure, physicochemical properties and cooking quality of brown rice. Food Chem, 462: 140847.
[7]	Li J L, Leng H J, Cao R A, et al. 2024. Effect of degree of milling on the nutrition and eating quality of brown rice. Sci Technol Food Ind, 46(8): 85-94. (in Chinese with English abstract)
[8]	Liang J F, Li Z G, Tsuji K, et al. 2008. Milling characteristics and distribution of phytic acid and zinc in long-, medium- and short-grain rice. J Cereal Sci, 48(1): 83-91.
[9]	Liu K L, Cao X H, Bai Q Y, et al. 2009. Relationships between physical properties of brown rice and degree of milling and loss of selenium. J Food Eng, 94(1): 69-74.
[10]	Mohamad N S, Tan L L, Ali N I M, et al. 2023. Zinc status in public health: Exploring emerging research trends through bibliometric analysis of the historical context from 1978 to 2022. Environ Sci Pollut Res Int, 30(11): 28422-28445.
[11]	Sakai H, Iwai T, Matsubara C, et al. 2015. A decrease in phytic acid content substantially affects the distribution of mineral elements within rice seeds. Plant Sci, 238: 170-177.
[12]	Senguttuvel P, Padmavathi G, Jasmine C, et al. 2023. Rice biofortification: Breeding and genomic approaches for genetic enhancement of grain zinc and iron contents. Front Plant Sci, 14: 1138408.
[13]	Su D, Sultan F, Zhao N C, et al. 2014. Positional variation in grain mineral nutrients within a rice panicle and its relation to phytic acid concentration. J Zhejiang Univ: Sci B, 15(11): 986-996.
[14]	Wang K M, Wu J G, Li G, et al. 2011. Distribution of phytic acid and mineral elements in three indica rice (Oryza sativa L.) cultivars. J Cereal Sci, 54(1): 116-121.
[15]	Wang Y, Meng Y S, Ma Y P, et al. 2021. Combination of high Zn density and low phytic acid for improving Zn bioavailability in rice (Oryza sativa L.) grain. Rice, 14(1): 23.
[16]	Wessells K R, Manger M S, Tsang B L, et al. 2024. Mandatory large-scale food fortification programmes can reduce the estimated prevalence of inadequate zinc intake by up to 50% globally. Nat Food, 5(7): 625-637.
[17]	Xie C, Liu Y J, Su L, et al. 2025. The effects of germination and different milling degrees on the nutritional properties of rice bran. J Cereal Sci, 124: 104231.

Influences of Milling Degree on Zinc Bioavailability in Rice Grains Varied in Zinc and Phytic Acid Levels

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