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排序方式: 共有433条查询结果,搜索用时 15 毫秒
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The cultivation experiment was carried out to investigate the effects of different proportions of peat soil, perlite, vermiculite and yellow mud on growth of Gesneriaceae species(Chirita gueilinensis, Sinningia speciosa, Lysionotus pauciflorus, Hemiboea henryi, Aeschynanthus acuminatus, Saintpaulia ionantha). The growth traits of each plant growing in 7 different matrix materials were investigated.The plant height, crown width and chlorophyll content of each plant were measured. The results showed that the best substrate ratio was peat soil∶vermiculite=2∶1for C. gueilinensis, L. pauciflorus and H. henryi; peat soil∶perlite∶vermiculite = 2∶1∶1for S. ionantha; peat soil∶vermiculite∶yellow mud=2∶1∶1 for S. speciosa; peat soil∶perlite∶vermiculite∶yellow mud=2∶1∶1∶1 for A. acuminatus. 相似文献
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利用抗原抗体反应的高度特异性和酶的高效催化作用相结合,测定畜禽组织中恩诺沙星的残留量。结果表明,该检测方法简便、快速、灵敏。 相似文献
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[目的]探索软枣猕猴桃试管苗移栽后的最宜生长条件,提高成活率,缩短成活时间。[方法]通过测试不同炼苗季节、预处理方法、栽培基质、温度、湿度、光照对试管苗成活、移栽效果影响,得出最佳移栽炼苗程序。[结果]将生长健壮,苗高5cm以上的组培苗移至室温光照2000-3000lx,10h/d的栽培条件下经4d炼苗后,清水洗苗,蘸生根粉移栽至沙土∶黄棕壤∶腐叶土∶园土(1∶1∶1∶1)的基质中盆栽、套袋后置于棚高50cm的小拱棚内,拉2层遮阴网(透光率40-50%,温度20-24℃,土壤含水量80-90%)培养出的幼苗,成活率高达92%,叶数7,整体生长整齐,是软枣猕猴桃最佳驯化移栽方式。[结论]实验所得方法可为大田生产提供基础,极大程度上提高移栽成活率,缩短成活时间。 相似文献
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为了提高西番莲扦插苗的成活率和成活质量,本研究以黄壤、黄壤:有机肥=1:0.05为扦插基质,以0 mg/L、100 mg/L、200 mg/L为不同梯度的生根粉浓度,探索不同基质和生根粉浓度对西番莲扦插苗成活率、生物学特性及生物量的影响。研究表明:在不同基质条件下,以黄壤:有机肥=1:0.05配比效果最好,成活率达到93%,生物学特性(主根长、主根数、侧根长、侧根数、侧茎长、叶长、叶宽和叶片数)和生物量(植株重、根重、茎重、叶重)均较黄壤表现好;在不同生根粉浓度梯度下,则表现为200 mg/L >100 mg/L >0 mg/L。说明西番莲扦插繁殖以黄壤:有机肥=1:0.05作为基质,以200mg/L的生根粉浓度处理扦插穗条效果最佳。 相似文献
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Tillage changes soil environmental conditions and controls the distribution of residues in the soil, both actions that affect the production and emission of soil biogenic gases (CO2, N2O, and CH4). The objective of this study was to determine how tillage-induced environmental conditions and substrate quality affect the mineralization rate of easily metabolizable compounds and the subsequent production of these gases. Carbon compounds, with and without nitrogen, were applied to soil cropped to maize under tilled and no-till systems. Following substrate application in the spring and summer, biogenic gases were measured periodically at the soil surface (flux) and within the profile (concentration) at 10-, 20-, and 30-cm depths (i.e., within, at the bottom of, and below the plough layer). Strong CO2 and N2O responses to sucrose and glycine in both the field and the laboratory indicate that the soil was C- and N-limited. Surface fluxes of CO2 and N2O were greater in soils amended with glycine than with sucrose and were greater in tilled than no-till soils. Transient emission of CH4 following the addition of glycine was observed and could be attributed to inhibition of N mineralization and nitrification processes on CH4 oxidation. Laboratory and field measurements indicated that the larger substrate-induced CO2 emission from the tilled soils could not be attributed to differences in the total biomass or the basal respiratory activity of the soils. Thus, there appears to be no underlying difference in the functional capacity of the microbial communities under different tillage regimes. Comparison of gas profiles indicates relative accumulation of CO2 at depth in soils under no-till, as well as greater decline in profile CO2 content with time in the tilled compared to the no-till soil. These results support the conclusion that greater CO2 efflux from the tilled soils resulted from more rapid gas diffusion through the profile. Hence, the observed differences in gas fluxes between tilled and no-till soils can be attributed to differences in physical environment. 相似文献
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对金银花多酚氧化酶底物特异性和不同抑制剂的抑制效应进行了动力学分析,结果表明:金银花多酚氧化酶的最适作用底物为绿原酸,Km值为0.0059 mmol/L。维生素C、4-己基间苯二酚、L-半胱氨酸对多酚氧化酶的抑制均属可逆抑制,其抑制类型分别属于混合性、竞争性、反竞争性,对游离酶的抑制常数KI分别为1.620、4.587、0 mmol/L,对酶-底物络合物的抑制常数KIS分别为1.995、0、3.780 mmol/L;柠檬酸的抑制效应属不可逆抑制。维生素C、4-己基间苯二酚、L-半胱氨酸、柠檬酸对金银花多酚氧化酶半抑制浓度分别为0.062、0.053、0.140、0.048 mmol/L。 相似文献