Aluminum-induced changes in the net carbon fixation and carbon decomposition of a nitrogen-fixing cyanobacterium Trichodesmium erythraeum

IF 3.9 3区 环境科学与生态学 Q2 ENVIRONMENTAL SCIENCES Biogeochemistry Pub Date : 2023-09-02 DOI:10.1007/s10533-023-01081-4
Linbin Zhou, Fengjie Liu, Yehui Tan, Claude Fortin, Liangmin Huang, Peter G. C. Campbell
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Abstract

Recent studies suggest aluminum (Al) likely plays a role in the ocean carbon cycle by altering the biological carbon fixation and carbon decomposition of marine diatoms. However, it remains speculative whether Al has similar effects on other ecologically important phytoplankton groups such as the globally important nitrogen-fixing cyanobacterium, Trichodesmium. Here we report the influence of Al on carbon fixation and decomposition in non-axenic cultures of Trichodesmium erythraeum IMS101 (CCMP 1985). By using radiocarbon, and adding oceanic relevant amounts of dissolved Al (yielding concentrations of 40 and 200 nM) along with non-Al-amended controls, we investigated the changes in particulate organic carbon (POC) of Trichodesmium (> 2 μm, Trichodesmium POC), and free-living bacteria (0.2–2 μm, bacterial POC), and dissolved organic carbon (< 0.2 μm, DOC) over a 116-day growth period. The results showed that the rates of increase of POC in the declining growth phase of T. erythraeum were significantly higher (by 11–14%) in the Al-enriched treatments than in the control, and this Al-enhanced carbon fixation is consistent with previous observations on marine diatoms. On the other hand, unlike diatoms, the POC from T. erythraeum decomposed faster in the Al-enriched treatments during the first decay phase when bacterial POC and DOC increased along with the decomposition of Trichodesmium POC. Further addition of the same amounts of Al (again calculated to increase the Al concentration by 40 and 200 nM) was performed on day 71. This treatment was designed to mimic Al supply from sediment after the settling of Trichodesmium colonies to the ocean bottom. Following this second addition, the decomposition rate of both Trichodesmium POC and DOC slowed down by 20–27% and 31–62%, respectively, during the second decay phase, when DOC and bacterial POC decreased. The study suggests that Al fertilization in the surface ocean via dust deposition may increase the net carbon fixation and associated nitrogen fixation by Trichodesmium, and thus the supply of new nitrogen to the euphotic zone, whereas Al from sediment may decrease the decomposition rate of decaying Trichodesmium settled to the ocean bottom.

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铝诱导的固氮蓝藻赤霉病菌净固碳和碳分解的变化
最近的研究表明,铝可能通过改变海洋硅藻的生物碳固定和碳分解,在海洋碳循环中发挥作用。然而,Al是否对其他具有重要生态意义的浮游植物群体有类似的影响,如全球重要的固氮蓝细菌Trichodesmium,仍有待推测。在本文中,我们报道了Al对赤藓毛丝菌IMS101(CCMP 1985)非无菌培养物中碳固定和分解的影响。通过使用放射性碳,并添加海洋相关量的溶解Al(产生浓度为40和200nM)以及非Al修正的对照,我们研究了毛藻的颗粒有机碳(POC)的变化(>; 2μm,Trichodesmium POC)、自由生活细菌(0.2–2μm、细菌POC)和溶解有机碳(<; 0.2μ。结果表明,在赤藓生长衰退期,富铝处理的POC增加率显著高于对照(11-14%),这种铝增强的固碳作用与之前对海洋硅藻的观察结果一致。另一方面,与硅藻不同的是,在第一个衰变阶段,当细菌POC和DOC随着毛结菌POC的分解而增加时,来自赤藓的POC在富铝处理中分解得更快。在第71天进一步添加相同量的Al(再次计算以使Al浓度增加40和200nM)。这种处理是为了模拟毛结霉菌菌落沉降到海底后沉积物中的铝供应。第二次添加后,在第二个腐烂阶段,当DOC和细菌POC减少时,毛结菌POC和DOC的分解速率分别减慢了20-27%和31-62%。研究表明,通过灰尘沉积在表层海洋中施肥可以增加毛藻的净碳固定和相关的氮固定,从而向透光带提供新的氮,而沉积物中的铝可能会降低沉积在海底的腐烂毛藻的分解速率。
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来源期刊
Biogeochemistry
Biogeochemistry 环境科学-地球科学综合
CiteScore
7.10
自引率
5.00%
发文量
112
审稿时长
3.2 months
期刊介绍: Biogeochemistry publishes original and synthetic papers dealing with biotic controls on the chemistry of the environment, or with the geochemical control of the structure and function of ecosystems. Cycles are considered, either of individual elements or of specific classes of natural or anthropogenic compounds in ecosystems. Particular emphasis is given to coupled interactions of element cycles. The journal spans from the molecular to global scales to elucidate the mechanisms driving patterns in biogeochemical cycles through space and time. Studies on both natural and artificial ecosystems are published when they contribute to a general understanding of biogeochemistry.
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