Optimizing algal-bacterial systems for efficient sugar cane wastewater treatment: Pollutant removal and biomass resource recovery [0.03%]
优化藻菌系统高效处理甘蔗废水:污染物去除及生物质资源回收
Qun Wei,Canmei Wang,Yingying Qi et al.
Qun Wei et al.
Sugarcane wastewater is highly biodegradable; however, conventional single-treatment processes are constrained by its excessive organic load. Here, we integrated anaerobic acidification with microalgal bioaugmentation to establish an algal-...
Advances in multi-omics technologies for identifying metabolic engineering targets and improving lipid production in microalgae [0.03%]
多组学技术在微藻脂质代谢工程靶点挖掘及育种中的研究进展
Chun-Xiao Yan,Shuai Zhang,Lu-Wei Xu et al.
Chun-Xiao Yan et al.
Polyunsaturated fatty acids (PUFAs), such as γ- linolenic acid, arachidonic acid, eicosapentaenoic acid, and docosahexaenoic acid, are highly valued in the global market due to their physiological effects and health benefits. Concerns rela...
Development and operation of indigenous microalgal-bacterial consortium system treating eutrophic lake water: Consortium identification and system demonstration [0.03%]
原位蓝藻菌群净化富营养化湖水的系统构建及示范运行研究:菌群鉴定与系统示范运行部分
Zhengshuai Wu,Weican Shi,Wenqi Yuan et al.
Zhengshuai Wu et al.
Natural water bodies such as the inland lake suffers from eutrophication due to excessive nutrient, particularly nitrogen and phosphorus. This study demonstrated an indigenous microalgal-bacterial consortium (IMBC) system to treat eutrophic...
Novel xylanase activity and biofuel production in Lacrimispora xylanolytica isolated from termite guts symbionts [0.03%]
来源于白蚁肠道共生菌的Lacrimispora xylanolytica中的新型木聚糖酶活性及生物燃料生成能力
Chia-Chi Yang,Yu-Ju Lin,Fu-Shyan Wen
Chia-Chi Yang
Xylanase is crucial for converting lignocellulosic biomass into fermentable sugars, yet challenges such as thermostability, narrow pH activity ranges, and high production costs hindered recent advancements. The strain Ter3, isolated from te...
Intensified performance and mechanism of nitrogen removal in constructed wetland incorporating algal pond for treating low carbon nitrogen ratio wastewater [0.03%]
低C/N比污水强化脱氮的人工湿地-藻塘系统性能及机制研究
Xin Zhao,Ruigang Wang,Mingjun Li et al.
Xin Zhao et al.
Insufficient carbon sources limit efficient total nitrogen (TN) removal in traditional constructed wetlands (CWs) especially for low C/N ratio wastewaters. This study applied an algal pond combined with CW (AP-CW) to amplify nitrogen remova...
Microbial adaptation to H2 improves the conversion of volatile fatty acids to methane during in situ biomethanation even in CO2-depleted conditions [0.03%]
微生物适应H2可改善原位生物甲烷化过程中挥发性脂肪酸向甲烷的转化率甚至在CO2耗尽条件下也是如此
L Braga-Nan,E Trably,G Santa-Catalina et al.
L Braga-Nan et al.
The in situ biomethanation process aims to increase the CH4 content in biogas by injecting H2 into anaerobic digesters, improving its energetic value. However, H2 injection causes CO2 depletion hampering in situ biomethanation performances....
Dark-fermentative biohydrogen production from vegetable residue using wine lees as novel inoculum [0.03%]
用葡萄酒沉泥作为新型接种物发酵生产蔬菜残渣产氢研究
Angelo Andolfi,Francesco Bianco,Maura Sannino et al.
Angelo Andolfi et al.
This work studied wine lees as a novel source of microorganisms for biohydrogen production from vegetable residue (VR). Green tomatoes (WLGT), bell peppers (WLBP), green beans (WLGB), zucchini (WLZ), peas (WLP), and (WLE) eggplants were use...
Simultaneous pollutant removal and organic matter sequestration by coral sand-pyrite-based electroactive constructed wetlands [0.03%]
基于珊瑚沙-黄铁矿的电活性人工湿地同步去除污染物和固碳作用研究
Yaofu Tan,Li Li,Zhiwei Zhao et al.
Yaofu Tan et al.
The development of integrated solutions for sewage treatment and soil restoration in remote regions remains a challenge. This study innovatively designed coral sand-pyrite-based electroactive constructed wetlands (E-CWs) to synchronize wast...
Efficiently intensified nitrogen transformation in electrolysis-integrated constructed wetlands: Comparative performance and mechanism [0.03%]
电解耦合人工湿地中高效的强化氮转化:比较性能及机制研究
Xiuwen Qian,Juan Huang,Jin Xv et al.
Xiuwen Qian et al.
This study developed constructed wetlands (CWs) with direct current (DC) electrolysis and iron-carbon (IC) microelectrolysis. Ammonium removal was more significantly enhanced with IC by 12.7-27.3 %, while the promotion of DC only existed wi...
Revealing impact of yeast-lactic acid bacteria cooperation in liquefaction pretreatment on enhancing anaerobic digestion performance of food waste [0.03%]
酵母-乳酸菌共培养预处理对餐厨垃圾厌氧消化性能的提升作用及机制研究
Lei Ge,Fei Yin,Mingwei Wang et al.
Lei Ge et al.
Anaerobic digestion (AD) is a promising technology for food waste (FW) treatment and renewable energy recovery, yet hindered by its inefficiencies. This study proposed a cross-kingdom collaborative liquefaction pretreatment (LPT) using Baci...