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学者姓名:陈丽
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Abstract :
非光合微生物的光电营养代谢途径在生态系统能量循环中发挥着重要作用。海洋透光层具有自然光可及、物质能量交换剧烈和生化过程活跃等触发光电营养代谢的基本条件,但其内部光敏物质和微生物的光电响应机制仍未得到充分研究。本研究解析了闽江入海口河口、近岸和近海区域透光层中光敏物质的组成与空间分布、光电响应以及微生物群落结构。结果表明,这3个区域均存在悬浮半导体颗粒、天然色素和溶解性有机质等光敏物质,且其含量随着离岸距离增加而逐渐下降,但近岸区域光合微生物的丰度最高。光电流实验结果显示,近岸区域的光电效应最为显著,可能是由于其具有较为丰富的光敏物质和较少的共存物质干扰。微生物群落分析结果表明,海洋透光层中的微生物群落结构表现出显著的光电响应特征,其中电活性微生物的丰度与光敏物质含量呈显著正相关,表明电活性微生物的分布与光敏物质高效光电转化的区域高度一致。因此,天然光敏物质与电活性微生物之间的光电协同作用,有可能为理解海洋碳、氮等元素的生物地球化学循环提供新的理论视角。
Keyword :
元素地球化学循环 元素地球化学循环 光敏物质 光敏物质 光电效应 光电效应 微生物群落 微生物群落 海洋透光层 海洋透光层
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| GB/T 7714 | 陈丽 , 汪淑慧 , 袁味奇 et al. 闽江入海口透光层光电效应及微生物响应机制 [J]. | 地学前缘 , 2025 , 32 (03) : 207-217 . |
| MLA | 陈丽 et al. "闽江入海口透光层光电效应及微生物响应机制" . | 地学前缘 32 . 03 (2025) : 207-217 . |
| APA | 陈丽 , 汪淑慧 , 袁味奇 , 顾文智 , 叶捷 , 周顺桂 . 闽江入海口透光层光电效应及微生物响应机制 . | 地学前缘 , 2025 , 32 (03) , 207-217 . |
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Semiartificial photosynthesis has witnessed remarkable progress over the past decade, driven by the integration of diverse biological systems with synthetic materials, ushering in the first generation of biohybrid platforms (Biohybrids 1.0). While previous reviews have extensively examined whole-cell biohybrid systems and the fundamental mechanisms underlying solar-to-chemical energy conversion, a critical knowledge gap remains in the rational optimization of their three core components: photosensitizers, microbial partners, and solar energy input. These interdependent elements collectively determine the efficiency, stability, and scalability of biohybrid platforms. To address this gap, this review offers a comprehensive and structured overview of multidisciplinary strategies for the development of next-generation biohybrid platforms (Biohybrids 2.0). It highlights recent advances in photosensitizer design, microbial selection and engineering, energy sources and conversion strategies, interface control and optimization, and state-of-the-art characterization methodologies, while providing a comprehensive summary of a diverse and expanding range of emerging applications. The review also offers a critical appraisal of current limitations and proposes forward-looking research directions that may enable transformative progress toward Biohybrids 3.0. Altogether, this integrative perspective outlines a coherent framework for the rational design of robust, efficient, and application-ready semiartificial photosynthetic systems for real-world and industrial-scale deployment.
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| GB/T 7714 | Ye, Jie , Gu, Wenzhi , Hu, Jing et al. Toward Next-Generation Semiartificial Photosynthesis: Multidisciplinary Engineering of Biohybrid Systems [J]. | CHEMICAL REVIEWS , 2025 . |
| MLA | Ye, Jie et al. "Toward Next-Generation Semiartificial Photosynthesis: Multidisciplinary Engineering of Biohybrid Systems" . | CHEMICAL REVIEWS (2025) . |
| APA | Ye, Jie , Gu, Wenzhi , Hu, Jing , Chen, Li , Yang, Chaohui , Gao, Jiangtao et al. Toward Next-Generation Semiartificial Photosynthesis: Multidisciplinary Engineering of Biohybrid Systems . | CHEMICAL REVIEWS , 2025 . |
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Trait-based approaches are increasingly applied to elucidate the microbial mechanisms that drive nutrient cycling and plant productivity in the rhizosphere. Genomic traits constraining trade-offs among functional traits are emerging as critical dimensions of ecological strategies. Although phenotypic traits have been studied extensively, the ecological relevance of genomic traits in shaping ecological strategies remains unclear. Here, we propose that genome size and guanine-cytosine content constitute core axes that integrate genomic architecture with fungal trade-offs in growth yield, resource acquisition, and stress tolerance. We synthesize current evidence on how genomic traits adapt to environmental gradients and how they influence fungal ecological strategies that modulate plant-fungi interactions. Advancing this conceptual framework promises deeper insight into trait-environment dynamics and plant-microbe interactions across environmental gradients.
Keyword :
ecological strategies ecological strategies fungi fungi genomic traits genomic traits plant–fungi interactions plant–fungi interactions plant productivity plant productivity
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| GB/T 7714 | Chen Li , Dini-Andreote Francisco , Wang Hui et al. Fungal genomic trait-based ecological strategies mediate plant productivity. [J]. | Trends in plant science , 2025 . |
| MLA | Chen Li et al. "Fungal genomic trait-based ecological strategies mediate plant productivity." . | Trends in plant science (2025) . |
| APA | Chen Li , Dini-Andreote Francisco , Wang Hui , Zhou Shungui , Jiang Yuji . Fungal genomic trait-based ecological strategies mediate plant productivity. . | Trends in plant science , 2025 . |
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Land-use change (LUC) is a significant contributor to the increase in atmospheric CO2 concentrations, with previous studies demonstrating its profound impact on soil organic carbon (SOC). The conversion of primary forests to farmland has been recognized as the most significant type of LUC inducing CO2 release from the soil. Therefore, it is critical to understand the impacts of forest LUC on SOC storage, with a particular focus on primary forest to farmland conversion. In this study, we conducted a meta-analysis of 411 observations from 41 published works and found that SOC storage decreased significantly following the conversion of primary forests to farmland. Factors such as soil depth and climate zone influenced the degree of SOC storage loss, with SOC loss being less severe in deeper soil following a conversion from primary forests to farmland. Moreover, the loss of SOC storage was more severe in temperate regions compared to tropical regions. The input and output of surface SOC, changes in soil structure, and increases in atmospheric CO2 concentrations were significant reasons for the loss of SOC following primary forest to farmland LUC. However, improving tillage methods and implementing sustainable agricultural management strategies can help reduce SOC loss. These findings highlight the importance of sustainable land-use practices in mitigating the negative impacts of forest LUC on SOC storage and the global carbon cycle.
Keyword :
farmland farmland land-use change land-use change meta-analysis meta-analysis primary forest primary forest soil organic carbon soil organic carbon
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| GB/T 7714 | Xiao, Changgui , Gong, Yaoqi , Pei, Xiaolei et al. Impacts of Land-Use Change from Primary Forest to Farmland on the Storage of Soil Organic Carbon [J]. | APPLIED SCIENCES-BASEL , 2024 , 14 (11) . |
| MLA | Xiao, Changgui et al. "Impacts of Land-Use Change from Primary Forest to Farmland on the Storage of Soil Organic Carbon" . | APPLIED SCIENCES-BASEL 14 . 11 (2024) . |
| APA | Xiao, Changgui , Gong, Yaoqi , Pei, Xiaolei , Chen, Hanyue , Li, Sheng , Lu, Chengwen et al. Impacts of Land-Use Change from Primary Forest to Farmland on the Storage of Soil Organic Carbon . | APPLIED SCIENCES-BASEL , 2024 , 14 (11) . |
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Accurately calculating detachment capacity is the most fundamental issue when establishing a soil erosion process model. Colluvial deposits of Benggang are typical soil-gravel mixtures, whereas the understanding of the soil detachment of colluvial deposits is limited. This work investigated the effects of the gravel contents on the soil detachment capacity of colluvial deposits and its hydrodynamic mechanism. The colluvial sample was collected in Anxi County, Fujian Province, Southeast China, and a small-sample scouring test was used. The slope steepness ranged from 18% to 84%, unit discharge ranged from 0.56x10(-3) to 2.22x10(-3) m(2) s(-1), and gravel content ranged from 0% to 70%. The results indicated that the gravel content is the primary factor that influences the detachment capacity, followed by the discharge and then the slope. The detachment capacity trend with the gravel content varied over different slopes and discharges. Stream power represents the best hydrodynamic parameter for modelling the detachment capacity of colluvial deposits and can be used to establish a fitting equation for the colluvium together with the mean weight diameter (MWD) (Nash-Sutcliffe efficiency (NSE)=0.96). As the gravel content increased, the soil erodibility parameters increased several folds, in some cases more than 10 folds, mainly because the soil shear strength decreased gradually. Meanwhile, as the gravel content increased, the gravel specific surface area increased, the obstruction of gravel to runoff increased, and the energy needed for runoff to overcome gravel obstruction increased, leading to 2-3 folds higher critical shear stress of runoff for soil-gravel mixtures compared with pure soil. In summary, gravel can influence the detachment capacity by changing the soil properties, and the gravel content also affects the relationship between soil detachment capacity and the hydrodynamic parameters. These findings deepen the understanding of the influence of gravel on soil erosion and provide a basis for establishing a soil erosion process model in colluvial deposits.
Keyword :
Benggang Benggang Erosion resistance Erosion resistance Gravel content Gravel content Hydraulic erosion Hydraulic erosion Hydrodynamics Hydrodynamics Soil detachment Soil detachment
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| GB/T 7714 | Zhang Li-ting , Shuai Fang , Chen Li et al. Effect of gravel content on the detachment of colluvial deposits in Benggang [J]. | JOURNAL OF MOUNTAIN SCIENCE , 2022 , 19 (11) : 3088-3104 . |
| MLA | Zhang Li-ting et al. "Effect of gravel content on the detachment of colluvial deposits in Benggang" . | JOURNAL OF MOUNTAIN SCIENCE 19 . 11 (2022) : 3088-3104 . |
| APA | Zhang Li-ting , Shuai Fang , Chen Li , Huang Yan-he , Lin Jin-shi , Zhang Yue et al. Effect of gravel content on the detachment of colluvial deposits in Benggang . | JOURNAL OF MOUNTAIN SCIENCE , 2022 , 19 (11) , 3088-3104 . |
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The PCN-224 with good optical properties have been successfully by using Zr as the metal node and 4,4,4,4(Porphine-5,10,15,20-tetrayl)tetrakis(benzoic acid) (TCPP) as the base ligand. Carrying Camptothecin (CPT) and doxorubicin (DOX), the material modified with folic acid (FA) forms a Drug@PCN-224-FA nanomaterial. The average particle size of Drug@PCN-224-FA was less than 200 nm, and it had high drug encapsulation efficiency for both CPT and DOX. At acidic conditions, the release rate of CPT is 46.42% and the release rate of DOX is 40.80%. In 630 nm laser irradiation, Drug@PCN-224-FA can efficiently produce reactive oxygen species (ROS) to kill cancer cells. In vitro cell experiments also show that Drug@PCN-224-FA has good biocompatibility and combined therapeutic effects.
Keyword :
Combined therapeutic Combined therapeutic Metal-organic framework Metal-organic framework Reactive oxygen species Reactive oxygen species
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| GB/T 7714 | Xie, Bao-Xuan , Shu, Wen , Wang, Hai-Shuang et al. Folic acid-modified metal-organic framework carries CPT and DOX for cancer treatment [J]. | JOURNAL OF SOLID STATE CHEMISTRY , 2021 , 306 . |
| MLA | Xie, Bao-Xuan et al. "Folic acid-modified metal-organic framework carries CPT and DOX for cancer treatment" . | JOURNAL OF SOLID STATE CHEMISTRY 306 (2021) . |
| APA | Xie, Bao-Xuan , Shu, Wen , Wang, Hai-Shuang , Chen, Li , Zhang, Fang-Zhong , Lin, Rong-Guang . Folic acid-modified metal-organic framework carries CPT and DOX for cancer treatment . | JOURNAL OF SOLID STATE CHEMISTRY , 2021 , 306 . |
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Many physiological traits are thought to play an important role in the low-light adaptation of plants. Therefore, we tested light intensity regulation of chlorophyll pigments, gas exchange, chlorophyll fluorescence, and non-structural carbohydrates in Ma bamboo (Dendrocalamus latiflorus Munro) leaves under five varying light intensities; such as L0 (100%), L1 (40%), L2 (30%), L3 (20%), and L4 (10%). We found that Ma bamboo grown under low light conditions synthesized more chlorophyll [total chlorophyll (Chls) and carotenoids (Car)], whereas net photosynthetic rate (Pn) under 10-40% light treatments was lower than that of those established under full sunlight. The decrease in light intensities increased PSII actual photochemical efficiency (phi PSII), electron transport rate (ETR), and PSII photochemistry (Fv/Fm), while low radiation led to a reduction in photochemical quenching coefficient (qP) and an increase in non-photochemical quenching coefficient (NPQ) of the leaves. Low light intensity was more conducive to accumulating non-structural carbohydrates with higher soluble sugar and starch. These parameters analyzed by principal component analysis (PCA) could be considered critical physiological traits to evaluate Ma bamboo's adaptation to low light. Our findings implied that Ma bamboo had better adaptive strategies in low light conditions, which had substantial implications for the management and cultivation of Ma bamboo's plantation.
Keyword :
bamboo seedlings bamboo seedlings low-light conditions low-light conditions photosynthetic efficiency photosynthetic efficiency photosynthetic products photosynthetic products shade tolerant shade tolerant
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| GB/T 7714 | Fan, L. , Tarin, M. W. K. , Hu, W. et al. CHANGES IN LIGHT INTENSITY AFFECT LEAF GAS EXCHANGE, CHLOROPHYLL FLUORESCENCE, AND NON-STRUCTURAL CARBOHYDRATES OF MA BAMBOO (DENDROCALAMUS LATIFLORUS MUNRO) [J]. | APPLIED ECOLOGY AND ENVIRONMENTAL RESEARCH , 2021 , 20 (2) : 1269-1284 . |
| MLA | Fan, L. et al. "CHANGES IN LIGHT INTENSITY AFFECT LEAF GAS EXCHANGE, CHLOROPHYLL FLUORESCENCE, AND NON-STRUCTURAL CARBOHYDRATES OF MA BAMBOO (DENDROCALAMUS LATIFLORUS MUNRO)" . | APPLIED ECOLOGY AND ENVIRONMENTAL RESEARCH 20 . 2 (2021) : 1269-1284 . |
| APA | Fan, L. , Tarin, M. W. K. , Hu, W. , Han, Y. , Rong, J. , Chen, L. et al. CHANGES IN LIGHT INTENSITY AFFECT LEAF GAS EXCHANGE, CHLOROPHYLL FLUORESCENCE, AND NON-STRUCTURAL CARBOHYDRATES OF MA BAMBOO (DENDROCALAMUS LATIFLORUS MUNRO) . | APPLIED ECOLOGY AND ENVIRONMENTAL RESEARCH , 2021 , 20 (2) , 1269-1284 . |
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