Implications of feed mineral reduction and enhancement for China's feed standards

Xu, Y. and Li, J. and OUYang, Z. and Zhang, H. (2021) Implications of feed mineral reduction and enhancement for China's feed standards. Resources, Conservation and Recycling, 168: 105342.

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Abstract

The high concentration of heavy metal in livestock manures is an increasing concern because it has the potential to pollute farmlands. Excessive mineral additives in feeds are the source of heavy metals in the manures. Recently, China has issued new regulations to restrict the use of high-dose mineral feeds. To reduce pollution and to increase the benefits to the industry, it is critical to understand the characteristics of heavy metals in feeds and to develop alternatives that are more efficient. This study analyzed 175 articles (1751 valid data) published in 2000–2020 in peer-reviewed journals. The analysis covered the characteristics of minerals in pig feeds in China, summarized the effects of different additives and discussed the relationships with feed standards. It was noted that Cu and Zn exceeded existing standards for pig feeds. Organic and new inorganic mineral supplements can effectively replace high-dose inorganic minerals to reduce incidents of diarrhea in piglets, improve growth performance and reduce pollution. With the recommended replacement, Zn and Cu in pig manure can be reduced respectively by 8.21×107and 3.23×107 kg per year. It can also improve product quality and efficiency and increase income of breeding enterprises by USD 1.28×1010per year. © 2020

Item Type:
Journal Article
Journal or Publication Title:
Resources, Conservation and Recycling
Uncontrolled Keywords:
/dk/atira/pure/subjectarea/asjc/2000/2002
Subjects:
?? data integration analysisfeed mineral doseheavy metal pollutionlarge-scale farmingzn and cu supplementadditivesagriculturefertilizersheavy metalsmammalsmanuresorganic mineralsgrowth performancehigh doseinorganic minerallivestock manuremineral additivespig ??
ID Code:
163282
Deposited By:
Deposited On:
10 Dec 2021 17:45
Refereed?:
Yes
Published?:
Published
Last Modified:
15 Jul 2024 21:18