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71.
Cd2+、Hg2+、As3+对可口革囊星虫的急性毒性试验 总被引:1,自引:0,他引:1
采用次生体腔注射、静水法研究了Cd2 、Hg2 和As3 对可口革囊星虫的单一毒性试验。试验结果表明:Cd2 、Hg2 和As3 对星虫的24 h LD50分别为:158.79 mg/kg,87.39 mg/kg和295.80 mg/kg;48 h LD50分别为:74.94 mg/kg,39.89 mg/kg和46.35 mg/kg。Cd2 、Hg2 、As3 对星虫的毒性大小为:Hg2 >As3 ≈Cd2 ,LD50均随试验时间的延长而减小。毒性反应:注射Cd2 组星虫身体伸长,吻变细,肠管排出;注射Hg2 组身体变硬,分节;注射As3 组身体变软。相对增重方差分析显示:不同注射浓度,相对增重均有显著差异;不同处理时间,Hg2 、As3 处理的星虫有显著差异,而Cd2 处理的星虫无显著差异。 相似文献
72.
不同温度和CO_2体积分数对丰水梨采后生理指标的影响 总被引:2,自引:0,他引:2
为明确丰水梨采后适宜的贮藏温度和CO2体积分数,从果实硬度、膜透性、乙醇质量分数、总酚质量分数、PG活性、PPO活性及果心褐变等方面研究了不同温度和CO2体积分数对丰水梨果实的防褐保鲜效果。结果表明,-1.5℃明显降低果实腐烂率,维持较高的果实硬度,但果实发生不同程度冷害;5℃适合短期贮藏(<60d)。与CK相比,3%O2+1%CO2可较好保持果实硬度和风味,明显抑制PPO活性、乙醇产生和果心褐变,延缓酚类物质降解,较好保持细胞膜完整性;2%CO2防褐保鲜效果次之;3%~5%CO2防褐保鲜效果最差。 相似文献
73.
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75.
Protein content and properties in the seminal plasma of Atlantic halibut (Hippoglossus hippoglossus) were assayed using spectrophotometric and electrophoretic methods. The protein concentration ranged from 6.4 ± 3.1 to 19.4 ± 3.4 mg ml−1 and anti-proteolytic activity from 585.2 ± 104.6 to 2912.4 ± 367.4 U l−l. A high correlation between anti-proteolytic activity and protein concentration (r = 0.95), and between sperm concentration and osmolality was found (r = 0.92). There was a significant decrease in anti-proteolytic activity from the first to the second sampling, but not in
protein concentration. Anti-proteolytic activity and protein concentration were significantly affected by variations in individual
males. Electrophoresis revealed four anti-proteolytic bands and individual differences in bands of proteolytic activity, which
were subsequently characterized as metalloproteases and serine proteases. 相似文献
76.
研究不同铝水平胁迫(0、50、100、200、400 mmol/L)对橡胶树幼苗过氧化物酶(POD)、超氧化物歧化酶(SOD)、丙二醛(MDA)、叶绿素含量、叶片相对电导率及幼苗地上部与地下部铝含量变化的影响。结果表明,铝胁迫均使橡胶树幼苗生理指标产生一定的变化。在200 mmol/L和400 mmol/L铝水平下橡胶苗叶片POD活性和SOD活性先上升后下降至胁迫前甚至为0;MDA含量则大量增加,而且越来越高;叶绿素总量、叶绿素a和叶绿素b随胁迫时间的推移呈下降趋势,且铝浓度越大下降趋势越明显;相对电导率随胁迫时间的推移均呈现上升趋势,介于60%~100%之间,超过细胞质膜死亡的阈值;橡胶苗地下部铝含量分别约为地上部铝含量的3倍、2倍、1.3倍。不同铝水平胁迫处理中,随着铝浓度越高、胁迫时间越长对橡胶树幼苗生理指标的影响越大。其中在200 mmol/L铝水平下叶片相对电导率大于50%,达到叶片细胞膜透性阈值,MDA则大量增加,SOD和POD急速上升后下降,叶绿素含量极少。因而认为橡胶树幼苗的最高铝耐受浓度为200 mmol/L,地下部铝含量的耐受量为6.2 mg/g,地上部的耐受量为2.9 mg/g。 相似文献
77.
《Journal of Crop Improvement》2013,27(1-2):75-91
Abstract Maize grain yields have increased dramatically over the past fifty years, and concurrently end-uses have proliferated requiring special quality characteristics. Plant breeders have developed many specialty types of maize, all of which are influenced by the agronomic practices used to produce the crop. Grain yield increases have resulted in lower protein concentration except when the yield increase resulted from nitrogen fertilizer application. Irrigation improves the biological value of protein, while higher nitrogen application rates alter the amino acid balance thereby reducing the nutritional value. Kernel breakage susceptibility and kernel density increase with higher nitrogen fertilizer application rates, and are reduced by irrigation. Extractable starch and oil concentration are largely influenced by hybrid choice, but small production practice effects have been documented. Essential mineral nutrient levels are often influenced by soil or foliar fertilizer application. The production of aflatoxin can be reduced by irrigation or other strategies to avoid water stress during grain fill. Although genetics usually exerts the largest effect on maize grain quality, agronomic practices are also important. 相似文献
78.
农药自动混药装置的研究现状与展望 总被引:1,自引:0,他引:1
目前,我国农作物病虫害防治主要依靠施用农药,现有的大多数农药剂型需要加水稀释,配制成一定浓度后再施用。近年,我国农业航空迅速发展,对农业航空的智能化农业机械装备的需求变得非常迫切。系统总结了农药自动混药装置类型以及农药自动混药装置特点,通过对农药自动混药装置研究发展概况分析,阐明了国内农药自动混药装置所存在的问题,展望未来农药混药装置的发展趋势,为后续的研究方向奠定基础。 相似文献
79.
The effects of (S)-(+)-carvone treatments on seed potato tuber dormancy and sprouting 总被引:1,自引:0,他引:1
Summary Potato seed tubers may suffer from premature sprouting during storage, thus limiting their suitability for cultivation. Commonly
used sprout suppressant treatments negatively affect but viability and therefore a reliable method to inhibit bud development
must still be found for seed tubers. The monoterpene carvone ((S)-(+)-carvone) was tested in small scale experiments. The
vapour of this compound fully inhibited bud growth of tubers cv. Monalisa stored at 23°C without affecting bud viability throughout
6 months of treatment. The most effective range of carvone vapour concentrations was between 0.34 and 1.06 μmol mol−1. With these qualities we can expect carvone to become a suitable sprout suppressant for seed tubers. 相似文献
80.
Mayu Onodera Takayuki Nakajima Masami Nanzyo Tadashi Takahashi Donghe Xu Koki Homma 《Plant Production Science》2013,16(2):262-274
ABSTRACT Soil salinity is a major constraint to sustainable crop production. Genetic improvements are needed for growing soybean in salinity-prone environments. Salt-tolerant soybean genotypes alleviate a reduction in photosynthesis and growth under saline conditions; however, the detailed mechanisms involved remain unclear. Here, we aimed to clarify how Na and Cl root-to-leaf transport is quantitatively regulated, and to identify whether photosynthetic tolerance depends on traits associated with either stomata or with mesophyll tissues. Two pairs of pot-grown soybean near-isogenic lines (NILs) consisting of tolerant and susceptible counterparts, derived from a cross between salt-tolerant FT-Abyara and salt-sensitive C01, were subjected to salinity treatment in a rainout greenhouse. Comparison of photosynthetic responses between genotypes indicated that genotypic differences in salinity tolerance depended on the ability for sustained CO2 assimilation in mesophyll tissues, rather than stomatal conductance. The ratio of photosynthetic rate to intercellular CO2 concentration (A/Ci) declined exponentially with increasing Na and Cl concentration regardless of genotype, but tolerant genotypes effectively kept both elements at significantly low levels. Under saline conditions, tolerant genotypes reduced Na and Cl content at the two transport pathways: from root to stem, and from stem to leaf, but the reduction of Cl at each pathway was only minor. These results suggest that integrating genetic capacity for Cl transport regulation and osmotic adjustment should be an important target in salinity-tolerance soybean breeding. 相似文献