4.7 Article

Water table depth, experimental warming, and reduced precipitation impact on litter decomposition in a temperate Sphagnum-peatland

SCIENCE OF THE TOTAL ENVIRONMENT (2021)

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SCIENCE OF THE TOTAL ENVIRONMENT
Volume 771, Issue -, Pages -

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ELSEVIER
DOI: 10.1016/j.scitotenv.2021.145452

Keywords

Tea bag index; Litter decomposition; Litter stabilization; Peatland; Climate change; Climate change experiments; Open Top Chambers

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Environmental Sciences

Funding

  1. National Science Centre of Poland (NCN) [2016/21/B/ST10/02271, 2017/25/N/ST10/02212]
  2. Polish Ministry of Science and Higher Education program: Regional Initiative Excellence in the years 2019-2022 at Poznan University of Life Sciences [005/RID/2018/19]
  3. Polish Ministry of Science and Higher Education program: Initiative of Excellence -Research University at Adam Mickiewicz University in Poznan [05/IDUB/2019/94]

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The study estimated litter decomposition rates in peatland exposed to climate manipulation using the Tea Bag Index method. Results showed that decomposition rates were influenced by temperature, water table dynamics, and the interrelation of different environmental factors, with water table fluctuations playing a key role in controlling decomposition rates in waterlogged ecosystems.
The Tea Bag Index (TBI) method was used to estimate the litter decomposition rate in peatland exposed for climate manipulation (increased temperature and reduced precipitation) at two contrasting sites differing in water table depth (WTD) dynamics. To manipulate climate on peatland, the prototyped Open Top Chambers (OTC) and automated rain-out shelters were used. OTCs increased daytime air temperatures by similar to 1.7 degrees C at the driest plots exposed for an increase of air temperature and reduced precipitation, while the increase of the average daily air temperature was lower than 0.9 degrees C. However, OTCs cooled down the peat temperature even by 0.8 degrees C and this effect was most pronounced for daytime rather than night-time conditions. The precipitation amount was reduced by 26%. The tea bags were buried at 8 cm depth for 83 and 172 days starting from the 19th of April 2019. Our observation proved that although decomposition rates were dependent on temperature, WTD and its fluctuations are the main factors controlling the rates of litter decomposition in waterlogged ecosystems like ours. At waterlogged Sphagnum-dominated peatlands, the interrelation between different environmental factors may mitigate the impact of warming and reduced precipitation on litter decomposition. (C) 2021 The Author(s). Published by Elsevier B.V.

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SCIENCE OF THE TOTAL ENVIRONMENT (2024)

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Article Environmental Sciences

Photodegradation of typical pharmaceuticals changes toxicity to algae in estuarine water: A metabolomic insight

Jiang Lin, Lianbao Chi, Qing Yuan, Busu Li, Mingbao Feng

Summary: This study investigated the photodegradation behavior and product formation of two representative pharmaceuticals in simulated estuary water. The study found that the formed transformation products of these pharmaceuticals have potential toxicity on marine organisms, including oxidative stress and damage to cellular components.

SCIENCE OF THE TOTAL ENVIRONMENT (2024)

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Article Environmental Sciences

Association of ambient air pollution and pregnancy rate among women undergoing assisted reproduction technology in Fujian, China: A retrospective cohort study

Hua Fang, Dongdong Jiang, Ye He, Siyi Wu, Yuehong Li, Ziqi Zhang, Haoting Chen, Zixin Zheng, Yan Sun, Wenxiang Wang

Summary: This study revealed that exposure to lower levels of air pollutants led to decreased pregnancy rates, with PM10, NO2, SO2, and CO emerging as the four most prominent pollutants. Individuals aged 35 and above exhibited heightened susceptibility to pollutants.

SCIENCE OF THE TOTAL ENVIRONMENT (2024)

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Article Environmental Sciences

The predictive machine learning model of a hydrated inverse vulcanized copolymer for effective mercury sequestration from wastewater

Ali Shaan Manzoor Ghumman, Rashid Shamsuddin, Amin Abbasi, Mohaira Ahmad, Yoshiaki Yoshida, Abdul Sami, Hamad Almohamadi

Summary: In this study, inverse vulcanized polysulfides (IVP) were synthesized by reacting molten sulfur with 4-vinyl benzyl chloride, and then functionalized using N-methyl D-glucamine (NMDG). The functionalized IVP showed a high mercury adsorption capacity and a machine learning model was developed to predict the amount of mercury removed. Furthermore, the functionalized IVP can be regenerated and reused, providing a sustainable and cost-effective adsorbent.

SCIENCE OF THE TOTAL ENVIRONMENT (2024)

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Article Environmental Sciences

Aluminium bioaccumulation in colon cancer, impinging on epithelial-mesenchymal-transition and cell death

Rita Bonfiglio, Renata Sisto, Stefano Casciardi, Valeria Palumbo, Maria Paola Scioli, Erica Giacobbi, Francesca Servadei, Gerry Melino, Alessandro Mauriello, Manuel Scimeca

Summary: This study investigated the presence of aluminum in human colon cancer samples and its potential association with biological processes involved in cancer progression. Aluminum was found in tumor areas of 24% of patients and was associated with epithelial to mesenchymal transition (EMT) and cell death. Additional analyses revealed higher tumor mutational burden and mutations in genes related to EMT and apoptosis in aluminum-positive colon cancers. Understanding the molecular mechanisms of aluminum toxicity may improve strategies for the management of colon cancer patients.

SCIENCE OF THE TOTAL ENVIRONMENT (2024)

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