O AMBIENTE ESTUARINO E A VARIAÇÃO DE pH: LIMITES NATURAIS E OBSERVAÇÃO EXPERIMENTAL DO EFEITO DA ACIDIFICAÇÃO SOBRE A BIODISPONIBILIDADE DE FÓSFORO

IF 0.5 4区化学 Q4 CHEMISTRY, MULTIDISCIPLINARY

Quimica Nova Pub Date : 2023-08-07 DOI:10.21577/0100-4042.20230054

E. Braga, L. Lucena, A. Almeida, M. Pires, J. do Nascimento, B. Sutti, G. Berbel, V. Chiozzini

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Abstract

THE ESTUARINE ENVIRONMENT AND pH VARIATION: NATURAL LIMTS AND EXPERIMENTAL OBSERVATION OF THE ACIDIFICATION EFFECT ON PHOSPHORUS BIOAVAILABILITY. This study shows the variation of pH in the Cananéia-Iguape Estuarine-Lagoon Complex (CIELC). Data from 3 years (2019, 2021, 2022) were obtained in 17 points presenting the following ranges: temperature (14.88-27.05 ºC), pH (7.16-8.40) and DIP (0.20-11.28 µmol L-1) along a saline gradient (0.05-32.09) under different hydrodynamics, biogeochemical processes and anthropogenic influence. The pH buffering capacity due to the presence of weak acid salts in saline water (S ≥ 30) was associated to the lowest DIP, decreasing with low salinity values, confirming the direct correlation among salinity and pH. The highest temperatures in the winter of 2021, corroborated with the abnormal climate event in that year. An in vitro experiment showed results of the interaction of PID and sediments with different textures, with and without the presence of the benthic microbiota under a considerable decreasing of the pH (acidification) in relation to the natural condition of this environment. The P sediment flux characterized Iguape sector as a P sink with or without biota, Ararapira sector as a P source with biota and Cananéia, as P source without biota. The salt water buffered the pH and sediment buffered DIP both associated to the biogeochemical and hydrodynamic processes contribute to the homeostasis in the system.

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河口环境和pH值变化:自然极限和酸化对磷生物利用度影响的实验观察

河口环境与pH变化:自然极限及酸化对磷生物利用度影响的实验观察。本文研究了canan - iguape河口-泻湖复合体(CIELC)的pH变化。在不同的水动力学、生物地球化学过程和人为影响下，获得了3年(2019年、2021年、2022年)17个点的数据，其范围为:温度(14.88-27.05ºC)、pH(7.16-8.40)和DIP(0.20-11.28µmol L-1)，沿盐度梯度(0.05-32.09)。咸水(S≥30)中弱酸盐的pH缓冲能力与最低DIP相关，随着盐度的降低而降低，证实了盐度与pH之间的直接相关性。2021年冬季的最高气温与当年的异常气候事件相印证。一项体外实验显示，与该环境的自然条件相比，在有底栖微生物群存在和没有底栖微生物群存在的情况下，PID与不同质地的沉积物相互作用的结果显著降低了pH值(酸化)。磷沉积物通量特征为:Iguape扇区为有或无生物群的磷汇，Ararapira扇区为有生物群的磷源，cananacia扇区为无生物群的磷源。咸水缓冲pH值和沉积物缓冲DIP，这两个过程与生物地球化学和水动力过程有关，有助于系统的动态平衡。

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

Quimica Nova 化学-化学综合

CiteScore

1.60

自引率

12.50%

发文量

审稿时长

2-4 weeks

期刊介绍： Química Nova publishes in portuguese, spanish and english, original research articles, revisions, technical notes and articles about education in chemistry. All the manuscripts submitted to QN are evaluated by, at least, two reviewers (from Brazil and abroad) of recognized expertise in the field of chemistry involved in the manuscript. The Editorial Council can be eventually asked to review manuscripts. Editors are responsible for the final edition of QN.

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