Revitalizing sub-optimal drylands: Exploring the role of biofertilizers

IF 1.8 Q2 AGRICULTURE, MULTIDISCIPLINARY

Open Agriculture Pub Date : 2023-01-01 DOI:10.1515/opag-2022-0214

Samijan, S. Minarsih, S. Jauhari, S. Basuki, A. Susila, E. Nurwahyuni, Y. Hindarwati, A. Supriyo, V. E. Aristya

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Abstract

Abstract Indonesia has a dry land area of 79.69%, with low soil productivity (physical, chemical, and biological), as well as uneven and unpredictable rainfall. The dryland potential is optimally utilized using biofertilizers that can produce microbes to increase soil fertility. This research aims to determine the effects of biofertilizers on dryland improvement and crop production. The study was conducted from February to May 2021 in Central Java, Indonesia. Using a randomized block design in peanut cultivation. Six biofertilizers (Controlled, Agrimeth, BioNutrient, Gliocompost, Agrimeth + BioNutrient, Agrimeth + BioNutrient + Gliocompost) were applied with four replications. The performance of each biofertilizer was assessed based on chemical soil parameters, soil microbe population, plant growth, and yields. The soil in the study area belonged to the Inceptisols group and exhibited moderately acidic pH, low organic carbon content, and low nitrogen levels. However, it had high potential and available phosphorus, as well as moderate potential and high available potassium. BioNutrient and Gliocompost increased available phosphate by 12 and 19%, respectively, due to the presence of Pseudomonas fluorescens and Aspergillus sp. Agrimeth influenced the population of Azospirillum (45–63%) and enhanced phosphate-solubilizing bacteria. Agrimeth + BioNutrient + Gliocompost promoted the growth of the Azospirillum and Trichoderma populations (17–18%), resulting in a 45.04% increase in profits. Biofertilizer inoculation positively affected peanut development, root nodule formation, and yield. This novelty showed the potential of biofertilizers in improving dryland conditions, increasing crop productivity, and contributing to sustainable agriculture in the long term.

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振兴次优旱地:探索生物肥料的作用

摘要印度尼西亚的旱地面积为79.69%，土壤生产力（物理、化学和生物）较低，降雨量不均匀且不可预测。旱地潜力的最佳利用是使用生物肥料，这种肥料可以产生微生物来提高土壤肥力。本研究旨在确定生物肥料对旱地改良和作物生产的影响。该研究于2021年2月至5月在印度尼西亚中爪哇岛进行。在花生栽培中使用随机区组设计。施用六种生物肥料（对照、Agrimet、BioNutrite、Gliocompost、Agrimet+BioNutrit、Agrimeth+BioNutert+Gliocompast），四次重复。每种生物肥料的性能都是根据土壤化学参数、土壤微生物种群、植物生长和产量进行评估的。研究区域的土壤属于Inceptisols组，表现出中等酸性pH、低有机碳含量和低氮水平。然而，它具有高潜力和有效磷，以及中等潜力和高有效钾。由于荧光假单胞菌和曲霉属的存在，BioNutrient和Gliocompost的有效磷酸盐分别增加了12%和19%。Agrimet影响了氮螺菌的种群（45-63%），并增强了磷酸盐溶解细菌。Agrimeth+BioNutrite+Gliocompost促进了唑螺菌和木霉种群的增长（17-18%），导致利润增长45.04%。生物肥料接种对花生发育、根瘤形成和产量有积极影响。这一新颖性表明了生物肥料在改善旱地条件、提高作物生产力和长期促进可持续农业方面的潜力。

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来源期刊

Open Agriculture AGRICULTURE, MULTIDISCIPLINARY-

CiteScore

3.80

自引率

4.30%

发文量

审稿时长

9 weeks

期刊介绍： Open Agriculture is an open access journal that publishes original articles reflecting the latest achievements on agro-ecology, soil science, plant science, horticulture, forestry, wood technology, zootechnics and veterinary medicine, entomology, aquaculture, hydrology, food science, agricultural economics, agricultural engineering, climate-based agriculture, amelioration, social sciences in agriculuture, smart farming technologies, farm management.