使用氧化石墨烯作为种植添加剂缓解盐效应

IF 5.8 2区环境科学与生态学 Q1 CHEMISTRY, MULTIDISCIPLINARY

Environmental Science: Nano Pub Date : 2024-09-27 DOI:10.1039/d3en00992k

Mizuki Yamada, Nonoka Goto, Yuki Hachiya, Tatsuki Tsugawa, Lutfia Isna Ardhayanti, Md. Saidul Islam, Yoshihiro Sekine, Shintaro Ida, Shinichiro Sawa, Shinya Hayami

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引用次数: 0

摘要

土壤盐碱化威胁着全球粮食安全，削弱了农业生产力，需要创新的解决方案。另一方面，利用土壤中的添加剂减轻盐胁迫不仅可以解决普遍存在的土壤盐碱化问题，还为在种植过程中利用海水开辟了道路。这一前景广阔的解决方案有可能彻底改变农业生产方式，开创一个可持续、有韧性的粮食生产新时代。在本研究中，我们探索了氧化石墨烯（GO）作为添加剂缓解土壤盐碱化的潜力。在一个典型案例研究中，我们在土壤中含有或不含有 GO 的 100 mM NaCl 溶液的水中栽培番茄植株。然后将这些条件与对照组进行比较。这项研究表明，在盐碱地种植番茄以及在栽培过程中利用盐水是可行的。

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Mitigation of salt effect using graphene oxide as additives in plantation

Soil salinity threatens global food security, crippling agricultural productivity and demanding innovative solutions. On the other hand, mitigating salt stress using additives in the soil not only addresses the widespread issue of soil salinity but also opens the way for using ocean water in the cultivation process. This promising solution holds the potential to revolutionize agricultural practices and usher in a new era of sustainable and resilient food production. In this study, we explore the potential of graphene oxide (GO) as an additive to alleviate soil salinity. In a typical case study, we cultivated tomato plants in water containing 100 mM NaCl solution, with and without the presence of GO in the soil. These conditions were then compared against a control group. This study implies the feasibility of plantations in salty sail and the utilization of saltwater for the cultivation process.

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来源期刊

Environmental Science: Nano CHEMISTRY, MULTIDISCIPLINARY-ENVIRONMENTAL SCIENCES

CiteScore

12.20

自引率

5.50%

发文量

290

审稿时长

2.1 months

期刊介绍： Environmental Science: Nano serves as a comprehensive and high-impact peer-reviewed source of information on the design and demonstration of engineered nanomaterials for environment-based applications. It also covers the interactions between engineered, natural, and incidental nanomaterials with biological and environmental systems. This scope includes, but is not limited to, the following topic areas: Novel nanomaterial-based applications for water, air, soil, food, and energy sustainability Nanomaterial interactions with biological systems and nanotoxicology Environmental fate, reactivity, and transformations of nanoscale materials Nanoscale processes in the environment Sustainable nanotechnology including rational nanomaterial design, life cycle assessment, risk/benefit analysis