排序方式: 共有3条查询结果,搜索用时 0 毫秒
1
1.
文章依据2018 年8月、10月及2019年4月、6月庙岛群岛海域4个航次的调查资料,分析该海域不同月份DIN、PO4-P、SiO3-Si的平面分布及限制特征。结果表明:庙岛群岛海域DIN浓度范围为0.82~95.14 μmol/L,平均值为5.27 μmol/L,在2018年8月最高;PO4-P浓度范围为未检出至2.12 μmol/L,平均值为0.19 μmol/L,在2018年10月最高;SiO3-Si浓度范围为0.25~48.93 μmol/L,平均值为5.38 μmol/L,在2018年8月最高;总体而言,庙岛群岛海域夏季营养盐浓度较高,春季营养盐相对匮乏。庙岛群岛海域2018年8月、10月和2019年6月为PO4-P限制,2019年4月为SiO3-Si和PO4-P限制;PO4-P限制使海域初级生产力受到一定限制,对海水养殖业造成一定影响;SiO3-Si浓度低不利于硅藻生长,从而间接助长甲藻繁殖,因而庙岛群岛海域春季易引发赤潮。 相似文献
2.
Jerusalem artichoke is an economic crop widely planted in saline-alkaline soil. The use of Jerusalem artichoke is of great significance. In this study, the response surface method was employed to optimize the eff ects of processing variables(extraction temperature, p H, extraction time, and liquid-tosolid ratio) on the yield of Jerusalem artichoke pectin. Under the optimal extraction conditions: p H 1.52, 63.62 min, 100°C and a liquid-to-solid ratio of 44.4 m L/g, the maximum pectin yield was predicted to be 18.76%. Experiments were conducted under these optimal conditions and a pectin yield of 18.52±0.90% was obtained, which validated the model prediction. The eff ects of diff erent drying methods(freeze drying, spray drying and vacuum drying) on the properties of Jerusalem artichoke pectin were evaluated and they were compared with apple pectin. FTIR spectral analysis showed no major structural diff erences in Jerusalem artichoke pectin samples produced by various drying treatments. The antioxidant activities of pectin dried by diff erent methods were investigated using in vitro hydroxyl and DPPH radical scavenging systems. The results revealed that the activities of spray dried pectin(SDP) and apple pectin(AP) were stronger than those of vacuum oven dried pectin(ODP) and vacuum freeze dried pectin(FDP). Therefore compared with the other two drying methods, the spray drying method was the best. 相似文献
3.
文章基于2020年5月(春季)和10月(秋季)莱州湾近岸海域环境监测数据,研究无机氮(DIN)和活性磷酸盐(DIP)的营养盐空间分布特征,分析海水质量状况和富营养化状况,并完成营养盐与环境因子的相关性分析。研究结果表明:莱州湾海域春季DIN的浓度范围为0.115~1.830 mg/L,呈现近岸高于远岸、西部高于东部的分布特征;秋季DIN的浓度范围为0.009~2.070 mg/L,高值区位于黄河河口附近;春、秋季DIP的浓度范围分别为未检出~0.009 mg/L、0.000 4~0.012 9 mg/L,受我国“控磷”“限磷”等磷负荷消减政策的影响,DIP的浓度一直处于较低水平。受DIN浓度的影响,春、秋季分别有35.7%和30.7%的调查站位超第二类海水水质标准。春季有1.4%的调查站位处于轻度富营养化状态,位于小清河河口附近;秋季有1.6%的调查站位处于轻度富营养化状态,位于黄河河口附近;其他站位均未达到富营养化水平。莱州湾海域营养盐的分布特征与多种环境因子呈现明显的相关性,其空间分布受多因素影响。 相似文献
1