精准农业土壤生物活性的近端传感

V. Adamchuk, F. Reumont, J. Kaur, J. Whalen, N. Adamchuk-Chala
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引用次数: 2

摘要

人们对监测土壤生物健康的兴趣日益增加,以补充农业领域土壤物理和化学特征的传统评价。土壤微生物的活动介导了许多影响肥力的基本土壤过程,因此,对成功采用精准农业至关重要。然而,在具有成本效益的农业景观土壤生物活动时空动态监测方面存在技术限制。本文综述了连续三项土壤生物活性原位测量研究。第一项研究利用生物膜揭示了三种农田微生物种群生长的空间异质性。在第二项研究中,使用底物诱导呼吸技术分析微生物活性。这项技术是通过一系列土壤毒性实验来评估的,这些实验涉及新鲜和高压灭菌土壤样本的比较。最后,第三项研究的目的是开发一种便携式仪器系统,通过提取土壤孔隙中储存的空气来评估土壤中的二氧化碳浓度。该仪器在各种条件下进行了测试,以量化土壤湿度,压实和葡萄糖存在的影响(人工增加微生物呼吸)。优化所讨论的技术将允许详细绘制土壤生物健康的这些指数及其与任何特定时间点的物理和化学环境的相互作用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Proximal sensing of soil biological activity for precision agriculture
There is growing interest in monitoring soil biological health to complement the traditional evaluation of soil physical and chemical characteristics in agricultural fields. Activity of soil microorganisms mediates many essential soil processes that affect fertility, and, therefore, essential to the successful adoption of precision agriculture. However, there are technical limitations to cost-effective monitoring of spatial and temporal dynamics of soil biological activity across agricultural landscapes. This paper summarizes three consecutive studies on in situ measurement of soil biological activity. The first study reveals spatial heterogeneity of microbial population growth in three agricultural fields using bio-films. In the second study, microbiological activity was analyzed using a substrate-induced respiration technique. This technique was evaluated through a series of soil toxicity experiments that involved a comparison of fresh and autoclaved soil samples. Finally, the aim of the third study was to develop a portable instrumented system to evaluate carbon dioxide concentrations in soil by extracting air stored within the soil pores. This instrument was tested under various conditions to quantify the effects of soil moisture, compaction and presence of glucose (artificially increased microbial respiration). Optimization of the discussed techniques will allow for detailed mapping of these indices of soil biological health and their interactions with the physical and chemical environment at any specific point in time.
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