Mixtures of Mycorrhizal Fungi Improve Growth of Lactuca Sativa and Reduce Levels of Zinc in Contaminated Soil

Fine focus Pub Date : 2019-10-16 DOI:10.33043/ff.5.1.65-74

John A. Haradean, Tyler Ralph-Epps, Zach Whiteacre, S. Neumann, D. Becker

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引用次数: 1

Abstract

Bioremediation is currently under investigation as a viable way to remove many environmental pollutants and most commonly involves the use of microorganisms to extract organic pollutants or heavy metals from water or soil. One of the most abundant heavy metals found in industrially polluted sites is zinc (Zn); it is often found alongside metals like lead (Pb), arsenic (As), and mercury (Hg). This experiment investigated the potential bioremediation of pasteurized soil contaminated with zinc using different vesicular arbuscular mycorrhizal fungi (VAM) species and lettuce plants (Lactuca sativa). Soil was amended with 0.4 g of zinc chloride (ZnCl2) per kg of soil. Amended and unamended soils were inoculated with two different mixes of VAM, BioAg VAM-Endo™ and MycoBloom. For each treatment, L. sativa plants (15 pots per treatment) were grown in a greenhouse setting. Plant diameter was measured weekly. Plants were harvested after 55-days and the wet weight of leaf tissue was measured before the tissue was sent for analysis of zinc levels. Roots were assessed for mycorrhizae using a trypan blue staining procedure. The BioAg VAM-Endo™ mix was the most successful at removing ZnCl2 from the soil. L. sativa inoculated with VAM mixes formed mycorrhizae, grew healthier and removed more zinc from the soil than the non-inoculated group. We propose further investigation into the use of mycorrhizal fungi paired with other plant species to remove zinc from contaminated sites with harmful levels of zinc.

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菌根真菌混合施用可促进油菜生长，降低污染土壤中锌含量

目前正在研究生物修复作为一种去除许多环境污染物的可行方法，最常见的方法是利用微生物从水或土壤中提取有机污染物或重金属。在工业污染场地中发现的最丰富的重金属之一是锌;它通常与铅(Pb)、砷(As)和汞(Hg)等金属一起被发现。本试验研究了不同水泡状丛枝菌根真菌(VAM)种类和生菜对锌污染巴氏消毒土壤的生物修复潜力。每公斤土壤添加0.4克氯化锌(ZnCl2)。用两种不同的VAM, BioAg VAM- endo™和MycoBloom混合接种改良和未改良的土壤。对每个处理，在温室环境下种植L. sativa植株(每个处理15盆)。每周测量植株直径。55天后收获植株，测量叶片组织的湿重，然后送去分析锌水平。用台盼蓝染色法对根进行菌根鉴定。BioAg VAM-Endo™混合物在去除土壤中的ZnCl2方面最为成功。与未接种组相比，接种VAM混合物的油菜形成菌根，生长更健康，从土壤中去除更多的锌。我们建议进一步研究利用菌根真菌与其他植物物种配对，从锌有害水平的污染地点去除锌。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Fine focus

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