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奥塔哥新西兰生物可利用锶(87Sr/86Sr)同位素质谱图:对食品取证和生物安全的影响。

A bioavailable strontium (87Sr/86Sr) isoscape for Aotearoa New Zealand: Implications for food forensics and biosecurity.

机构信息

Department of Anatomy, University of Otago, Dunedin, Aotearoa New Zealand.

BioArch South, Waitati, Aotearoa New Zealand.

出版信息

PLoS One. 2022 Mar 16;17(3):e0264458. doi: 10.1371/journal.pone.0264458. eCollection 2022.

DOI:10.1371/journal.pone.0264458
PMID:35294466
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC8926269/
Abstract

As people, animals and materials are transported across increasingly large distances in a globalized world, threats to our biosecurity and food security are rising. Aotearoa New Zealand is an island nation with many endemic species, a strong local agricultural industry, and a need to protect these from pest threats, as well as the economy from fraudulent commodities. Mitigation of such threats is much more effective if their origins and pathways for entry are understood. We propose that this may be addressed in Aotearoa using strontium isotope analysis of both pests and products. Bioavailable radiogenic isotopes of strontium are ubiquitous markers of provenance that are increasingly used to trace the origin of animals and plants as well as products, but currently a baseline map across Aotearoa is lacking, preventing use of this technique. Here, we have improved an existing methodology to develop a regional bioavailable strontium isoscape using the best available geospatial datasets for Aotearoa. The isoscape explains 53% of the variation (R2 = 0.53 and RMSE = 0.00098) across the region, for which the primary drivers are the underlying geology, soil pH, and aerosol deposition (dust and sea salt). We tested the potential of this model to determine the origin of cow milk produced across Aotearoa. Predictions for cow milk (n = 33) highlighted all potential origin locations that share similar 87Sr/86Sr values, with the closest predictions averaging 7.05 km away from their true place of origin. These results demonstrate that this bioavailable strontium isoscape is effective for tracing locally produced agricultural products in Aotearoa. Accordingly, it could be used to certify the origin of Aotearoa's products, while also helping to determine if new pest detections were of locally breeding populations or not, or to raise awareness of imported illegal agricultural products.

摘要

随着全球化世界中人和物的跨国境运输,生物安全和食品安全的威胁日益增加。新西兰是一个岛国,拥有许多特有物种、强大的本地农业产业,需要保护这些物种免受害虫威胁,保护经济免受欺诈性商品的侵害。如果了解这些威胁的来源和进入途径,就可以更有效地减轻这些威胁。我们建议在新西兰使用害虫和产品的锶同位素分析来解决这个问题。生物可利用的放射性锶同位素是起源的普遍标志物,越来越多地用于追踪动植物以及产品的起源,但目前新西兰缺乏跨地区的基线图,因此无法使用这种技术。在这里,我们改进了现有的方法,利用新西兰最好的可用地理空间数据集开发了一个区域生物可利用锶同位素景观。该同位素景观解释了该地区 53%的变异(R2=0.53,RMSE=0.00098),主要驱动因素是基础地质、土壤 pH 值和气溶胶沉积(灰尘和海盐)。我们测试了该模型确定新西兰各地生产的牛奶起源的潜力。对牛奶(n=33)的预测突出了具有相似 87Sr/86Sr 值的所有潜在起源地,最接近的预测距离其真实起源地平均为 7.05 公里。这些结果表明,这种生物可利用锶同位素景观可有效追踪新西兰生产的本地农产品。因此,它可以用于认证新西兰产品的起源,同时还有助于确定新的害虫检测是本地繁殖种群还是其他种群,或者提高对进口非法农产品的认识。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/18d0/8926269/64fd8d48f42c/pone.0264458.g007.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/18d0/8926269/64fd8d48f42c/pone.0264458.g007.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/18d0/8926269/53df4e378d97/pone.0264458.g002.jpg
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https://cdn.ncbi.nlm.nih.gov/pmc/blobs/18d0/8926269/64fd8d48f42c/pone.0264458.g007.jpg

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