Macrofauna amplify plant litter decomposition and stabilization in arctic soils in a warming climate

IF 9.8 1区 农林科学 Q1 SOIL SCIENCE
Veronika Jílková , Petr Macek , Gerrit Angst , Martin Bartuška , Josef Starý , Vladimír Šustr , Miloslav Devetter
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Abstract

The soil organic carbon (SOC) pool of the Arctic region is currently protected by low temperatures, but is likely to decrease due to greater organic matter (OM) decomposition under a warmer climate. Negative feedback for climate warming can, however, be reversed by SOC accrual as climate warming leads to shifts in arctic vegetation (from grass to shrub) and soil faunal (introduction of macrofauna) communities affecting plant-soil C allocation. To decipher these contrasting effects, we performed a laboratory experiment with soils from dry tundra to test the interacting effects of plant litter quality (high-quality grass litter vs. the intermediate- and low-quality litter of shrubs) and soil fauna functional grouping (micro-, meso- and macrofauna [millipede]) on the processes of litter decomposition and OM stabilization.

Our findings showed that macrofauna largely promoted decomposition of shrub litter, while soil micro- and mesofauna were mainly responsible for the decomposition of grass litter. Our study thus confirmed that, when introduced and established in a warmer Arctic, macrofauna may become an important agent in shrub litter decomposition. Our data also showed that with shrub litter, higher C content was stabilized as particulate OM (POM) in aggregates, whereas in grass litter and low-quality shrub litter, higher C content was stabilized as mineral-associated OM (MAOM). Both these effects were larger in the presence of macrofauna and with a higher abundance of fungi. This suggests that consequent shrub OM stabilization in occluded POM and MAOM fractions will be carried out jointly by macrofauna and fungi, which will probably lead to more efficient OM stabilization in Arctic soils than in the case of grass litter OM stabilization by micro- and mesofauna and bacteria. In conclusion, our study suggests that vegetation changes and the introduction of macrofauna in a warming climate will most probably lead to higher OM stabilization in Arctic soils.

Abstract Image

在气候变暖的北极土壤中,大型动物扩大了植物凋落物的分解和稳定
北极地区的土壤有机碳(SOC)库目前受到低温的保护,但在气候变暖的情况下,有机质(OM)的分解可能会增加。然而,由于气候变暖导致北极植被(从禾草到灌木)和土壤动物(大型动物的引入)群落的变化,影响植物-土壤C的分配,因此碳积累可以逆转气候变暖的负反馈。为了解释这些对比效应,我们对来自干冻土带的土壤进行了实验室实验,以测试植物凋落物质量(优质草凋落物与中低质量灌木凋落物)和土壤动物功能类群(微型、中型和大型动物[千足虫])对凋落物分解和OM稳定过程的相互作用。研究结果表明,大型动物对灌木凋落物的分解有较大的促进作用,而土壤微、中动物对禾草凋落物的分解起主要作用。因此,我们的研究证实,当引入并建立在温暖的北极地区时,大型动物可能成为灌木凋落物分解的重要因素。在灌木凋落物中,较高的碳含量稳定为颗粒有机质(POM),而在草凋落物和低质量灌木凋落物中,较高的碳含量稳定为矿物伴生有机质(MAOM)。在存在大型动物和真菌丰度较高的情况下,这两种影响都更大。这表明,在封闭的POM和MAOM组分中,灌木有机质稳定将由大型动物和真菌共同进行,这可能比由微、中动物和细菌稳定草地凋落物的情况下更有效地稳定北极土壤中的有机质。总之,我们的研究表明,在气候变暖的情况下,植被的变化和大型动物的引入很可能导致北极土壤中更高的有机质稳定性。
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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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