遮光处理对西葫芦幼苗形态特征及光合生理特性的影响

研究了不同遮光处理对西葫芦幼苗形态及光合生理特性的影响.结果表明,在60%透光率条件下,西葫芦幼苗具有较高的相对生长率、净光合速率、气孔导度、蒸腾速率、单叶水分利用效率、饱和蒸汽压、表观量子效率和叶绿素含量,而胞间CO₂浓度较低;西葫芦幼苗具有较高的光饱和点(1 125 μmol·m^-2·s^-1)、较低的光补偿点(15.2 μmol·m^-2·s^-1).弱光下西葫芦幼苗较耐低浓度CO₂,而强光下的幼苗较耐高浓度CO₂.60%透光率下西葫芦幼苗叶片丙二醛和脯氨酸含量最低,而过氧化物酶和过氧化氢酶活性则最高.     

玉米幼苗抗氧化酶活性、脯氨酸含量变化及与其耐寒性的关系

研究了黄C（耐寒型）和Mo17（低温敏感型）两种耐寒性不同的玉米自交系幼苗在低温逆境（5 ℃,3 d）下,根、中胚轴和胚芽鞘3个部位过氧化氢酶（CAT）、过氧化物酶（POD）活性和脯氨酸（Pro）含量变化及与其耐寒性的关系.结果表明,低温期间,黄C的中胚轴、胚芽鞘相对生长率显著高于Mo17;黄C的根、中胚轴、胚芽鞘3个部位的CAT、POD活性和Pro含量变化率（其中,中胚轴分别为39.02%、-31.35%和86.86%）均高于Mo17（中胚轴变化率分别为1.86%、-48.67%和12.01%）;黄C 3个部位的质膜透性（中胚轴为22.05%）均低于Mo17（中胚轴为29.11%）.逐步回归分析表明黄C低温期间积累的干物质主要与Pro含量有关,而Mo17主要与POD活性有关,玉米幼苗中胚轴对低温反应最敏感,中胚轴Pro含量变化率与玉米耐寒性关系最密切.     

盐渍化胁迫下油葵对土壤原油污染的适应性及其改良措施

为了探究植物在盐渍化胁迫下对原油污染的适应性及改良措施,本研究以油葵作为研究对象,进行了原油-氯化钠-脱硫石膏盆栽正交试验和煤渣-沸石-脱硫石膏-锯沫盆栽正交试验.结果表明: 在盐渍化条件下,随着原油浓度的增大,油葵幼苗株高相对生长率(RGR)、地上生物量RGR、根氮磷比均显著减小,超氧化物歧化酶(SOD)和过氧化氢酶(CAT)活性呈先增加后显著降低的趋势;随着锯沫体积分数的加大,油葵株高RGR和地上生物量RGR均显著增加,SOD活性逐渐降低,说明锯沫在改良盐渍化原油污染土壤方面比煤渣、沸石和脱硫石膏效果显著.在盐渍化条件下,原油污染能够降低油葵幼苗的生长率,锯沫对改良原油污染有较好的效果.     

种植Bt水稻后的土壤对赤子爱胜蚓生长发育及酶活性的影响

【背景】转基因作物种植的安全问题一直备受关注。关于Bt蛋白对地下非靶标生物影响的研究是转基因作物安全评价的重要内容。【方法】在转Bt基因水稻收割后的稻田里分别种植豌豆、紫云英和油菜作为后茬作物。分别于2013年1、3和6月3次采集不同后茬作物田中的土壤作为材料,于室内饲养赤子爱胜蚓,4周和7周后,测定蚯蚓的生长发育指标、存活率以及体内酶活性的变化情况。此外,还测定了不同深度土壤中Bt蛋白的含量以及用Bt蛋白直接饲喂的赤子爱胜蚓的存活率。【结果】与种植过非转基因水稻MH63的土壤相比,分别种植过含cry2A和cry1C基因水稻后的土壤对赤子爱胜蚓的生长发育、存活率及体内酶活性无显著影响。1月份和3月份转cry2A基因水稻田以及1月份转cry1C基因水稻田采集的表层土样中的Bt蛋白含量显著高于地下10 cm和地下20 cm土壤中的含量,地下2层土样中的Cry2A蛋白含量之间无差异。3月份转cry1C基因水稻田以及6月份转cry2A和转cry1C基因水稻田的土壤中Bt蛋白的含量均不受土壤深度的影响。种植的后茬作物对土壤中的Bt蛋白无显著消解作用。室内模拟土壤最高Bt蛋白浓度的条件下,Cry2A蛋白处理的蚯蚓存活率为96.7%,Cry1C蛋白处理的蚯蚓存活率为95.0%,两者与对照相比无显著差异。【结论与意义】转cry2A和cry1C基因Bt水稻的种植对蚯蚓的生长发育和体内酶活性无显著影响。本研究为转基因水稻的安全评价提供了一定的依据。     

Responses of growth and litterfall production to nitrogen addition treatments from common shrublands in Mt. Dongling,Beijing, China

Aims The shrublands of northern China have poor soil and nitrogen (N) deposition has greatly increased the local soil available N for decades. Shrub growth is one of important components of C sequestration in shrublands and litterfall acts as a vital link between plants and soil. Both are key factors in nutrient and energy cycling of terrestrial ecosystems, which greatly affected by nitrogen (N) addition (adding N fertilizer to the surface soil directly). However, the effects and significance of N addition on C sequestration and litterfall in shrublands remain unclear. Thus, a study was designed to investigate how N deposition and related treatments affected shrublands growth related to C sequestration and litterfall production of Vitex negundo var. heterophylla and Spiraea salicifolia in Mt. Dongling region of China.
Methods A N enrichment experiment has been conducted for V. negundo var. heterophylla and S. salicifolia shrublands in Mt. Dongling, Beijing, including four N addition treatment levels (control (N₀, 0 kg N·hm^-2·a^-1), low N (N₁, 20 kg N·hm^-2·a^-1), medium N (N₂, 50 kg N·hm^-2·a^-1) and high N (N₃, 100 kg N·hm^-2·a^-1)). Basal diameter and plant height of shrub were measured from 2012-2013 within all treatments, and allometric models for different species of shrub’s live branch, leaf and root biomass were developed based on independent variables of basal diameter and plant height, which will be used to calculate biomass increment of shrub layer. Litterfall (litterfall sometimes is named litter, referring to the collective name for all organic matter produced by the aboveground part of plants and returned to the surface, and mainly includes leaves, bark, dead twigs, flowers and fruits.) also was investigated from 2012-2013 within all treatments.
Important findings The results showed 1) mean basal diameter of shrubs in the V. negundo var. heterophylla and S. salicifolia shrublands were increased by 1.69%, 2.78%, 2.51%, 1.80% and 1.38%, 1.37%, 1.59%, 2.05% every year; 2) The height growth rate (the shrub height relative growth rate is defined with the percentage increase of plant height) of shrubs in the V. negundo var. heterophylla and S. salicifolia shrublands were 8.36%, 8.48%, 9.49%, 9.83% and 2.12%, 2.86%, 2.36%, 2.52% every year, respectively. Thee results indicated that N deposition stimulated growth of shrub layer both in V. negundo var. heterophylla and S. salicifolia shrublands, but did not reach statistical significance among all nitrogen treatments. The above-ground biomass increment of shrub layer in the V. negundo var. heterophylla and S. salicifolia shrublands were 0.19, 0.23, 0.14, 0.15 and 0.027, 0.025, 0.032, 0.041 t C·hm^-2·a^-1 respectively, which demonstrated that short-term N addition had no significant effects on the accumulation of C storage of the two shrublands. The litter production of the V. negundo var. heterophylla and S. salicifolia communities in 2013 were 135.7 and 129.6 g·m^-2 under natural conditions, respectively. Nitrogen addition promoted annual production of total litterfall and different components of litterfall to a certain extent, but did not reach statistical significance among all nitrogen treatments. Above results indicated that short-term fertilization, together with extremely low soil moisture content and other related factors, lead to inefficient use of soil available nitrogen and slow response of shrublands to N addition treatments.     

不同NH4^＋／NO3^-比例的氮素营养对棉花氮素代谢的影响

The influence of different NH4^+／NO3^- ratios on nitrogen metabolism of cotton was studied under controlled hydroponics, The results showed that compared with single nitrate nutrition, solutions with 25/75, 50/50, 75/25 and 100/0 of NH4^+／NO3^- significantly increased the soluble protein accumulation in leaves and roots of cotton, and the maximum content of soluble protein in leaves and roots appeared respectively in the solution with 50/50 and 75/25 of NH4^+／NO3^- The soluble protein content in roots was increased with the increase of NH4+ percentage, but was slightly less in the solution of 100/0 than 75/25, which was probably related to the excess NH4^+ limiting boot metabolism. With the increase of NH4+ percentage, the nitrate content in petiole and the nitrate reductase activity in functional blade declined, but ammoniac nitrogen content increased in every organ of cotton. These results showed that foreign nitrogen affected the nitrogen metabolism of cotton in a different way, and the nitrogen absorption by cotton was probably related to different forms of foreign nitrogen.     

饲喂频率对南方鲇的摄食率、生长和饲料转化效率的影响

决定鱼类摄食量的内因是鱼体对能量的处理及转化能力,外因是食物的可获得性1。       

沙埋对半灌木羊柴幼苗的存活、生长和生物量分配的影响

羊柴(Hedysarum laeve Maxim.)是中国北方沙地飞播进行植被恢复与重建的主要植物种.在晚春与夏初的出苗期 ,羊柴幼苗经常遭受不同深度的沙埋.研究旨在探明沙埋对羊柴幼苗存活、生长和生物量分配格局的影响.6周的沙埋试验结果显示:当沙埋深度达到其株高时,约有70%的幼苗死亡 ;沙埋深度达到其株高的133%时,可使羊柴幼苗全部死亡;沙埋深度分别为株高的33%和67% 时,羊柴幼苗的整株生物量、叶片生物量、根系生物量以及相对生长率都相应地高于非沙埋的对照(即:0%沙埋).与非沙埋的对照相比,羊柴幼苗在33%和67%沙埋条件下并不显著地改变其生物量分配格局;并且羊柴幼苗的叶数和株高与对照无明显差异,但试验期内的新生叶数是沙埋处理(即:33%、67%和100%沙埋)的幼苗明显地高于非沙埋的对照.     

食品卫生微生物学检验培养基质量分析

为探讨培养基ISO国际标准对国内培养基质控的等效性,选择国内外4家培养基生产厂家的霉菌培养基、酵母菌培养基和显色培养基,从质控菌株生长率、抑菌效果等方面进行质量分析比对试验.生长率质控标准菌株在各种霉菌培养基、酵母菌培养基上的生长率均值均大于0.5,在显色培养基上的生长率均值均大于0.7,符合ISO国际标准.经统计分析,试验的4家培养基厂家生产的培养基质量水平差异不显著(P＞0.05),这为将新出台的培养基国家标准拟等效采用培养基ISO国际标准提供了基础材料和依据.     

海洋浮游生物的生态化学计量学研究进展

生态化学计量学可以简单定义为从分子到生物圈的元素生物学,其跨越了环境和生命的各个层次,是构建从分子到生态系统统一化理论的新思路,是生态科学发展的必然趋势.海洋生物占地球生物圈总生物量的50%,是全球生物地球化学循环的重要组成部分,而浮游生物作为海洋生态系统物质循环和能量流动的重要环节,在海洋生态系统元素循环过程中起着关键作用.但是目前关于海洋浮游生物生态化学计量学的研究较零散和缺乏.因此,本文从限制元素影响海洋浮游生物的生态现象和机理、生化物质对营养限制的响应、营养限制的食物链传递与反馈4方面,对海洋浮游生物化学计量学研究进行综述,分析了该领域当前存在的问题,并对我国海洋浮游生物生态化学计量学研究的发展重点提出了展望.