Nanoenabled Self-Assembled Metal-Organic Algaecides Generated Photosynthetic Inhibition and Oxidative Stress for Sustainable Food Security
文献类型: 外文期刊
第一作者: Wang, Mingyao
作者: Wang, Mingyao;Wang, Mengyue;He, Yunxiang;Wang, Xiaoling;Guo, Junling;Yang, Xiao;Huang, Tao;Yang, Qichang;He, Yunxiang;Wang, Xiaoling;Guo, Junling;Guo, Junling
作者机构:
关键词: Self-assembly; Metal-organic nanoalgaecides; Shading effects; Algal inhibition; Food sustainability
期刊名称:CHEMISTRY-A EUROPEAN JOURNAL ( 影响因子:3.7; 五年影响因子:3.8 )
ISSN: 0947-6539
年卷期: 2024 年 30 卷 71 期
页码:
收录情况: SCI
摘要: Achieving food sustainability is one of the biggest challenges in the new millennium. Plant factory cultivation systems provide an alternative for food sustainability, while they often suffer from algal blooms. The overuse of conventional algaecides has caused significant environmental pollution and concerns about food security. Here, we design a nanoenabled metal-organic algaecide that is self-assembled from natural polyphenols and two functional metal ions for providing shading effects and delivering active ingredients synergistically to suppress algal blooms. Black wattle tannin (BWT) and Fe3+ ions are utilized to develop self-assembled FeBWT nanoalgaecides with significant shading effects for decreasing light transmission (up to 97 %) and effectively inhibiting algal photosynthesis. Further, the FeBWT is functionalized with Cu2+ ions (bimetallic Cu/FeBWT) to target the algal cells and release Cu2+ ions via phenolic-mediated cell surface interactions, thus enhancing the inhibition efficiency. Importantly, the biosafety of Cu/FeBWT is demonstrated through toxicity tests on zebrafish and NIH3T3 cells. In our real-world field test, the Cu/FeBWT demonstrates high algal inhibition performance (>95 %, over 30 days), and enhances the accumulation of food nutrients in model plant lettuces. Collectively, the supramolecular metal-organic nanoalgaecide provides a promise for nanoagrochemical application and promotes food sustainability and security.
分类号:
- 相关文献
作者其他论文 更多>>
-
Overexpression of miR-192 Inhibits In Vitro Porcine Embryo Development by Inducing Oxidative Stress Damage and Impairing Mitochondrial Function
作者:He, Fan;Li, Mingguo;Qi, Mengfan;Fu, Binbin;Zhang, Huapeng;Li, Qingchun;Huang, Tao;Li, Mingguo;Chen, Fan;Bi, Yanzhen;Zhou, Rong;Huang, Tao
关键词:pig; miR-192; early embryo development
-
Differential responses of soil CO2 dynamics along soil depth to rainfall patterns in the Chinese Loess Plateau
作者:Yang, Xiao;Wang, Rui;Guo, Shengli;Wang, Rui;Yang, Mengdi;Guo, Shengli;Liu, Quanfeng;Zhang, Wenju
关键词:Gas diffusivity; Deep soils; soil CO(2 )Concentrations; CO2 flux
-
An opensource indoor climate and yield prediction model for Chinese solar greenhouses
作者:Zhou, Bo;Wang, Nan;Yang, Qichang;Zhou, Bo;Wang, Nan;Yang, Qichang;Zhou, Bo;Lastiri, Daniel Reyes;van Henten, Eldert J.
关键词:Chinese solar greenhouse; Climate model; Tomato yield prediction; Sensitivity analysis
-
Low-Temperature and Light Pretreatment Interactively Promote Rapid Flowering, Early Ripening, and Yield Accumulation of Winter Wheat
作者:Wu, Yuanlong;Wang, Qiangui;Zhao, Yanyan;Wu, Yuanlong;Shuai, Runnan;Zhan, Xiaoxu;Wang, Qiangui;Tang, Si;Gao, Tingting;Yang, Qichang;Bian, Zhonghua;Tang, Si;Gao, Tingting
关键词:low temperature; light; flowering time; transcriptome; wheat
-
The over-estimation of long-term mineral fertilizer on CO2 release from soil carbonates
作者:Zhou, Jie;Yang, Xiao;Liu, Enke;Mei, Xurong;Zhou, Jie;Shao, Guodong;Li, Lili;Zamanian, Kazem;Alharbi, Sulaiman Almwarai;Filimonenko, Ekaterina;Mei, Xurong;Mei, Xurong;Kuzyakov, Yakov;Kuzyakov, Yakov;Kuzyakov, Yakov
关键词:Pedogenic carbonates; Soil CO 2 efflux; Stable C isotopes; Cropland management
-
How the nutrient flow environment promotes lettuce growth in hydroponics
作者:Baiyin, Bateer;Xiang, Yue;Yang, Qichang;Shao, Yang;Son, Jung Eek;Tagawa, Kotaro;Yamada, Satoshi;Yamada, Mina
关键词:Antioxidant enzyme; Hydroponic cultivation; Lignin biosynthesis; Multi-Omics; Nutrient solution flow; Root morphology; Stress response; Urban agriculture
-
Multi-omics study reveals a light-dependent regulatory network of flavonoid biosynthesis in lettuce (Lactuca sativa L.)
作者:Xiang, Yuting;Zheng, Shuxin;Wang, Hsihua;Chen, Bang;Fu, Rao;Zhang, Yang;Xiang, Yuting;Huang, Tao;Zhang, Li;Song, Bo;Li, Yuejian;Yang, Qichang;Yang, Xiao
关键词:lettuce; metabolome; transcriptome; flavonoids; LsBBX20; LsMYB114; LsMYB114-like
