Ultisol optimization strategy: the use of Tithonia compost and rice husk biochar to improve nodulation and promote soybean (Glycine max (L.) Merril) growth

Q3 Social Sciences

Journal of Degraded and Mining Lands Management Pub Date : 2024-01-01 DOI:10.15243/jdmlm.2024.112.5419

A. P. Lestari, Zukkarnain Zulkarnain, E. Eliyanti, Ahmad Riduan

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Abstract

This study aimed to investigate the optimization of Ultisol soil using biochar and compost to increase nodule formation and performance of soybeans. The trial was conducted at the Research and Teaching Farm, Faculty of Agriculture, University of Jambi, for six months from April through to October 2021. Three levels of compost (5 t ha-1, 10 t ha-1, and 15 t ha-1) were tested in combination with three levels of biochar (5 t ha-1, 10 t ha-1, and 15 t ha-1). A completely randomized design was employed with three replications. Each experimental unit consisted of 20 plants, and 25% of the population was taken as sample plants. Results indicated that the application of soil ameliorant in the form of Tithonia compost and biochar could increase soil pH and nutrient contents and reduce C/N ratio. Tithonia compost + biochar improved Ultisol productivity as indicated by increased nodule formation and soybean growth. The combination of Tithonia compost and biochar, each of 15 t ha-1, was the best combination for the optimization of Ultisol, which produced the highest biological nitrogen fixation rate and resulted in the best soybean growth.

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Ultisol 优化策略：使用 Tithonia 堆肥和稻壳生物炭提高大豆（Glycine max (L.) Merril）的拔节率并促进其生长

本研究旨在探讨如何利用生物炭和堆肥优化 Ultisol 土壤，以提高大豆的结核形成和性能。试验于 2021 年 4 月至 10 月在占碑大学农学院研究与教学农场进行，为期六个月。试验将三种水平的堆肥（5 吨/公顷-1、10 吨/公顷-1 和 15 吨/公顷-1）与三种水平的生物炭（5 吨/公顷-1、10 吨/公顷-1 和 15 吨/公顷-1）结合使用。采用完全随机设计，三次重复。每个实验单元由 20 株植物组成，并抽取群体的 25% 作为样本植物。结果表明，施用 Tithonia 堆肥和生物炭形式的土壤改良剂可提高土壤 pH 值和养分含量，降低 C/N 比。Tithonia 堆肥+生物炭提高了 Ultisol 的生产力，表现在增加了结核的形成和大豆的生长。Tithonia 堆肥和生物炭的组合（各为 15 吨/公顷-1）是优化 Ultisol 的最佳组合，可产生最高的生物固氮率，并使大豆生长最好。

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