2019年4月至11月,在加州中央谷地的一个超级基金遗址,对受轻度微咸、多环芳烃污染的地下水进行了植物修复:一项使用耐盐、内生真菌增强杂交杨树的中试研究。

James E Landmeyer, Steven Rock, John L Freeman, Greg Nagle, Mark Samolis, Herb Levine, Anna-Marie Cook, Harry O'Neill
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引用次数: 1

摘要

在加利福尼亚中央山谷的一个超级基金基地,被多环芳烃(PAHs)污染的微微咸地下水利用太阳能从地表以下250英尺的地方泵入一个储水罐,然后重力输送到18,330加仑的中间散装容器(totes)中,如下:(1)5个totes装有种植介质,每个totes装有3棵耐盐杂交杨树(n = 15);(2) 7个培养皿含有3株耐盐杂交杨树的种植介质,接种天然产生的降解多环芳香烷的内生菌恶臭假单胞菌PD1 (n = 21);(3) 3个培养皿只含种植介质(n = 0);(4) 3棵接种了pd1的树(n = 3)和3棵普通树(n = 3)的地下水分别为1个袋和1个袋;(5) 1棵树只含地下水(n = 0)。在7个月的生长季节,尽管该地区空气温度炎热干燥,降水少,排放的氯化物浓度为290 mg/L,排放的萘浓度在650 ~ 5100 mg/L之间,但所有树木都生长良好。pd1接种的树木最初的树面积(树高×树宽)比普通树木大56%,到生长季节结束时,树面积比普通树木大69%,表明PAH污染具有一定的植物保护作用。在生长季节结束时,所有树木的树干径和叶片叶绿素含量相似。所有手提袋的总萘去除率从88%到100%不等。在只含有种植介质的手提袋中观察到最低的萘去除率为88%,这表明萘在有机含量高的种植介质上有大量吸附。通过放置在树干上的活体被动采样器检测萘,证实了杂交杨树对污染物的吸收。苯、甲苯、乙苯、总二甲苯、2-甲基萘、1,2,4-三甲苯和异丙苯也被检测到。上述中试研究结果表明,在该点全面应用耐盐杂交杨树可有效降低深含水层抽取地下水中萘的浓度。这些初步结果为类似的应用提供了希望,在其他污染地点,地下水在相当深的特征,特别是在超级基金场址,昂贵的泵和处理系统已经长期使用来处理低水平的地下水污染。
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Phytoremediation of slightly brackish, polycyclic aromatic hydrocarbon-contaminated groundwater from 250 ft below land surface: A pilot-scale study using salt-tolerant, endophyte-enhanced hybrid poplar trees at a Superfund site in the Central Valley of California, April-November 2019.

Slightly brackish groundwater contaminated by polycyclic aromatic hydrocarbons (PAHs) at a Superfund site in the Central Valley of California was pumped from 250 feet below land surface to a water storage tank using solar power and then gravity-fed into 18, 330-gallon intermediate bulk containers (totes) as follows: (1) Five totes contained planting medium with three salt-tolerant hybrid poplar trees per tote (n = 15); (2) Seven totes contained planting medium with three salt-tolerant hybrid poplar trees per tote and inoculated with the naturally occurring, PAH-degrading endophyte Pseudomonas putida PD1 (n = 21); (3) Three totes contained planting medium only (n = 0); (4) One tote contained groundwater with three PD1-inoculated trees (n = 3) and one tote contained groundwater with three regular trees (n = 3); and (5) One tote contained groundwater only (n = 0). All trees grew well during the 7-month growing season in spite of the area's hot, dry air temperature, little precipitation, tote-influent chloride concentrations of 290 mg/L, and tote-influent naphthalene concentrations that ranged from 650 to 5,100 mg/L. PD1-inoculated trees initially had 56% larger tree area (tree height × tree width) than regular trees and up to 69% larger tree area by the end of the growing season, indicating some conferred phytoprotection to the PAH contamination. All trees had similar trunk caliper (diameter) and leaf chlorophyll content by the end of the growing season. Total naphthalene removal ranged from 88% to 100% across all totes. The lowest naphthalene removal of 88% was observed in a tote that contained only planting medium and indicates substantial adsorption of naphthalene onto the high organic content of the planting medium. Contaminant removal due to uptake by the hybrid poplar trees was confirmed by the detection of naphthalene in in vivo passive samplers placed in tree trunks. Benzene, toluene, ethylbenzene, total xylenes, 2-methylnaphthalene, 1,2,4-trimethylbenzene, and isopropylbenzene were also detected. These results from the pilot-scale study indicate that a full-scale application of using salt-tolerant hybrid poplar trees at this site could effectively decrease naphthalene concentrations in groundwater pumped from the deep aquifer. These initial results provide hope for similar application at other contaminated sites characterized by groundwater at considerable depths, especially at Superfund sites where costly pump-and-treat systems have been used long-term to treat low levels of groundwater contamination.

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