KINETIC ASSESSMENT OF BIODEGRADABILITY IN GEL-FORMING SOIL CONDITIONERS BASED ON BOD ANALYSIS

Ser-17_2023-3 Pub Date : 2023-08-30 DOI:10.55959/msu0137-0944-17-2023-78-3-36-49

A. Smagin, N. Sadovnikova, K. Korchagina, E. A. Belyaeva

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Abstract

Biodegradation is one of the main factors limiting the efficiency and service life of gel-forming soil conditioners. The study quantifies this process using laboratory analysis of biological oxygen uptake (BOD) in innovative composite superabsorbents with an acrylic polymer matrix, amphiphilic agents (humates, peat) and silver ions as an inhibitor of biological activity. A simple kinetic model of BOD is proposed to standardize the analysis and calculation of the half-life of polymers after their incubation in precision VELP respirometers (Italy). The half-life of hydrogels swollen in distilled water (1:100) at a temperature of 30°C varied in the range from 0,8±0,2 to 2,4±1,6 years. The addition of an aqueous extract from compost sharply enhances biodegradation and reduces the half-life of hydrogels up to 40–60 days. Doses of 0,1–1% silver in a polymer matrix or 10-100 ppm in swollen hydrogels increase their half-life by 5–20 times. The new methodological approach makes it possible to fully automatically evaluate the biodegradation of gel–forming polymers in laboratory conditions, however, for stable materials with a half-life of more than 2,5–3 years, the accuracy of manometric BOD analyzers is insufficient for a statistically reliable assessment of the kinetics of biodegradation even in long (120 days) incubation experiments.

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基于bod分析的凝胶型土壤调理剂生物降解动力学评价

生物降解是制约成胶土壤调理剂效率和使用寿命的主要因素之一。该研究通过实验室分析丙烯酸聚合物基质、两亲性剂(腐植酸、泥炭)和银离子作为生物活性抑制剂的创新型复合高吸附剂的生物摄氧量(BOD)来量化这一过程。为了规范聚合物在精密VELP呼吸计中孵育后半衰期的分析和计算，提出了一个简单的BOD动力学模型。水凝胶在30℃蒸馏水(1:100)中膨胀的半衰期在0.8±0.2 ~ 2.4±1.6年之间变化。添加从堆肥中提取的水提取物可显著提高生物降解，并将水凝胶的半衰期缩短至40-60天。在聚合物基质中添加0.1%的银或在膨胀的水凝胶中添加10-100 ppm的银，可使其半衰期延长5-20倍。新的方法方法使得在实验室条件下完全自动评估凝胶形成聚合物的生物降解成为可能，然而，对于半衰期超过2,5 - 3年的稳定材料，即使在长时间(120天)的孵化实验中，压力计BOD分析仪的准确性也不足以对生物降解动力学进行统计可靠的评估。

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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Ser-17_2023-3

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