Aeolian dust deposition as a driver of cyanobacterial community structure in biological soil crusts

IF 9.8 1区 农林科学 Q1 SOIL SCIENCE
Brian Scott, Jon Zaloumis, Ferran Garcia-Pichel
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Abstract

Biocrusts are comprised of soil-dwelling microbes well known for stabilizing desert soils. Unstable soil is typically colonized first by motile cyanobacteria that can burrow under the surface to avoid sun exposure when in a dry state. They produce long, sticky sheaths and large trichome bundles that bind soil particles. Biocrusts dominated by such cyanobacteria are rather inconspicuous and thus termed “light biocrusts.” Some non-motile cyanobacteria can produce the dark sunscreen pigment scytonemin. They are typically considered to be secondary colonizers of the soil surface and their development marks the formation of “dark biocrusts.” Contrasting with this general paradigm, we observed both light and dark biocrusts growing side by side in a natural desert area in Pinal County, Arizona. Because light biocrusts developed as a band along a nearby dirt road, we hypothesized that aeolian dust deposition from road traffic may have contributed to this spatial patterning. To test this, we used inoculum from the natural site to grow biocrust in the laboratory with and without inputs of dust deposition, characterizing resulting biocrusts by appearance, microscopy, community composition based on 16S RNA, as well as proxy pigment analyses. Light biocrusts developed on soils receiving regular dust inputs, while undusted soils developed dark biocrust, an outcome traceable primarily to a more rapid growth of motile, non scytonemin-producing cyanobacteria under dust deposition. However, similar experiments carried out with well-developed crusts resisted dust-driven community shifts, even after extended treatments. We conclude that dust can swiftly affect community assembly pathways, but that it is much less of a factor, if at all, in driving shifts in established communities, and can partly explain biocrust spatial patterning in our site, and likely elsewhere.
浮尘沉积是生物土壤结壳中蓝藻群落结构的驱动因素
生物簇是由生活在土壤中的微生物组成的,以稳定沙漠土壤而闻名。不稳定的土壤通常首先由能动蓝藻定殖,这些蓝藻可以在干燥状态下钻到地表下,以避免阳光照射。它们产生长而粘的鞘和大的毛状体束,将土壤颗粒粘结在一起。以这类蓝藻为主的生物簇非常不明显,因此被称为 "轻生物簇"。一些不运动的蓝藻可产生深色防晒色素鞘氨醇。它们通常被认为是土壤表面的次生定殖者,它们的发展标志着 "深色生物簇 "的形成。与这一普遍范例不同的是,我们在亚利桑那州皮纳尔县的一个自然沙漠地区观察到了同时生长的浅色和深色生物簇。由于浅色生物簇沿着附近的一条土路呈带状生长,我们推测道路交通造成的风尘沉积可能促成了这种空间格局。为了验证这一点,我们在实验室中使用了来自自然地点的接种体,在有和没有尘埃沉积的情况下培育生物簇,并通过外观、显微镜、基于 16S RNA 的群落组成以及代用色素分析来确定生物簇的特征。在定期投入灰尘的土壤上形成浅色生物簇,而未投入灰尘的土壤则形成深色生物簇。然而,在结壳发达的类似实验中,即使经过长时间的处理,灰尘驱动的群落转移也不会发生。我们的结论是,灰尘会迅速影响群落的聚集途径,但在驱动已建立群落的变化方面,灰尘的作用要小得多(如果有的话)。
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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来源期刊
Soil Biology & Biochemistry
Soil Biology & Biochemistry 农林科学-土壤科学
CiteScore
16.90
自引率
9.30%
发文量
312
审稿时长
49 days
期刊介绍: Soil Biology & Biochemistry publishes original research articles of international significance focusing on biological processes in soil and their applications to soil and environmental quality. Major topics include the ecology and biochemical processes of soil organisms, their effects on the environment, and interactions with plants. The journal also welcomes state-of-the-art reviews and discussions on contemporary research in soil biology and biochemistry.
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