Biochar-Amended Soils: A Water-Saving Strategy for Quinoa Cultivation in the Andes

Journal of Sustainable Agriculture and Environment Pub Date : 2024-12-30 DOI:10.1002/sae2.70036

Tatiana Condori-Ataupillco, Ricardo Flores-Marquez, Kenyi Quispe, Juan Quispe-Rodriguez, José Velásquez-Mantari, Richard Solórzano-Acosta

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Abstract

Introduction

Previous studies showed that biochar amended soils significantly enhanced the growth and yield of quinoa under water limitations. So it becomes an emerging agronomic strategy to consider for sustainable quinoa production. Biochar can specifically be considered for the area particularly receiving low annual rainfall and more vulnerable to current climate change conditions.

Materials and Methods

A field experiment was conducted using the quinoa variety INIA 415 Pasankalla, employing a factorial design to assess the effects of different application rates of biochar made of municipal pruning waste and agricultural waste (0, 1, 2, and 3 t·ha⁻¹), and three irrigation intervals (irrigation every 5 days, irrigation every 10 days, and irrigation every 15 days). The volumetric soil moisture content, the soil hydraulic properties, and quinoa's biometric characteristics and yield components were evaluated.

Results

The results indicated that the longest irrigation intervals (10 and 15 days) resulted in soil moisture levels between 19% and 40% below the wilting point (soil matric potential: −1.5 MPa), creating water stress conditions. However, biochar application increased the field capacity from 0.31 to 0.38 g H₂O g⁻¹ soil, raised soil air content from 22% to 29% at irrigation, and promoted the quinoa's soil water absorption below the wilting point. Furthermore, the application of 3 t·ha⁻¹ of biochar significantly enhanced quinoa yield, increasing it from 3.18 to 4.22 t·ha⁻¹, along with improvements in leaf area, total biomass, root length, and panicle length by 70.74%, 76.54%, 14.34%, and 16.55%, respectively.

Conclusions

It was concluded that a 3 t·ha⁻¹ biochar application mitigated the negative effects of water stress caused by prolonged irrigation intervals. This biochar treatment improved the soil's physical properties and enabled the quinoa variety INIA 415 Pasankalla to achieve yields close to its theoretical productive potential.

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生物炭改良土壤：安第斯山脉藜麦种植的节水策略

以往的研究表明，在水分限制条件下，生物炭改性土壤能显著促进藜麦的生长和产量。因此，考虑可持续藜麦生产成为一种新兴的农艺策略。生物炭可以特别考虑用于年降雨量低且更容易受到当前气候变化条件影响的地区。材料和方法进行了现场试验使用藜麦品种INIA 415 Pasankalla,采用析因设计来评估不同的应用程序的影响的生物炭率由市政修剪浪费和农业废弃物(0,1,2,3 t·哈⁻¹),和三个灌溉时间间隔(每5天,灌溉灌溉每10天,每15天)和灌溉。评估了土壤体积含水量、土壤水力特性以及藜麦的生物特征和产量成分。结果最长灌溉间隔（10和15 d）导致土壤水分水平低于萎蔫点（土壤基质电位：−1.5 MPa） 19% ~ 40%，形成水分胁迫条件；然而，生物炭的应用使田地容量从0.31 g H₂O g毒血症增加到0.38 g H₂O g毒血症，使灌溉时土壤空气含量从22%提高到29%，并促进了藜麦在萎蔫点以下的土壤吸水性。此外，3 t·ha - 1生物炭的应用显著提高了藜麦的产量，从3.18 t·ha - 1增加到4.22 t·ha - 1，叶面积、总生物量、根长和穗长分别提高了70.74%、76.54%、14.34%和16.55%。结论3 t·ha生物炭可以减轻灌溉间隔时间过长造成的水分胁迫的负面影响。这种生物炭处理改善了土壤的物理性质，使藜麦品种INIA 415 Pasankalla的产量接近其理论生产潜力。

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来源期刊

Journal of Sustainable Agriculture and Environment

CiteScore

2.60

自引率

0.00%

发文量