不同光照条件下米氏凯伦藻和东海原甲藻生长的温度生态幅

米氏凯伦藻和东海原甲藻是我国东南沿海地区赤潮的主要优势种。为定量获取米氏凯伦藻和东海原甲藻生长的温度生态幅,根据3个光照水平(28.32,75.06,111.66μmol m~(-2)s~(-1))条件下4个温度水平(18,22,25,28℃)对米氏凯伦藻和东海原甲藻生长特性的室内培养实验结果,并结合Shelford耐受性定律建立了基于温度的米氏凯伦藻和东海原甲藻比生长率的耐受性模型,最后根据前期的研究成果分别获取了米氏凯伦藻和东海原甲藻生长的最适温度、适温范围及耐受温度范围。结果表明,无论是米氏凯伦藻还是东海原甲藻,在相同培养光照条件下,在设定的温度水平范围内,分别存在一个适宜米氏凯伦藻和东海原甲藻的最适生长温度T_(opt),且当T≤T_(opt)时,米氏凯伦藻和东海原甲藻细胞密度和比生长率随着温度的升高而显著增大;而当T≥T_(opt)时,米氏凯伦藻和东海原甲藻细胞密度和比生长率随着温度的升高而显著减小。随着培养光照强度的升高,米氏凯伦藻和东海原甲藻细胞密度和比生长率均呈现"先升后降"的变化趋势。建立的藻类生长温度耐受性模型与谢尔福德耐受定律较为吻合,定量获取米氏凯伦藻在3个光照水平(28.32,75.06,111.66μmol m~(-2)s~(-1))下的最适生长温度分别为22.48,22.37,22.33℃;适温范围分别为17.93—27.03,17.82—26.92,17.78—26.88℃;耐受温度范围分别为13.38—31.58,13.27—31.47,13.23—31.43℃;东海原甲藻在3个光照水平(28.32,75.06,111.66μmol m~(-2)s~(-1))下的最适生长温度分别为22.10,21.99,21.93℃;适温范围分别为17.59—26.61,17.48—26.5,17.42—26.44℃;耐受温度范围分别为13.08—31.12,12.97—31.01,12.91—30.95℃。     

米氏凯伦藻与东海原甲藻共培养条件下的种群竞争

米氏凯伦藻(Karenia mikimotoi)与东海原甲藻(Prorocentrum donghaiense)为有害赤潮生物,两者经常形成复合型赤潮.该文设置东海原甲藻的起始密度为400 cells·mL-1,米氏凯伦藻分别为200 cells·mL-1、400 cells·mL-1和800 cells·mL-1,通过共培养实验,初步研究米氏凯伦藻和东海原甲藻的种间关系.结果表明:共培养条件下,受到东海原甲藻的影响,米氏凯伦藻的生长受到抑制.米氏凯伦藻不同的起始密度对东海原甲藻的生长有不同的影响,较低的起始密度(200 cells·mL-1、400cells·mL-1)促进东海原甲藻的生长,使其增长率提高,生长曲线达到拐点的时间提前;高的起始密度(800 cells·mL-1)对东海原甲藻的生长有一定的抑制作用,使其增长率降低,生长曲线达到拐点的时间推迟.     

不同营养条件对东海原甲藻和中肋骨条藻竞争参数的影响

以东海原甲藻和中肋骨条藻为研究对象,采用室内单种培养和混合培养,设置不同的氮、磷营养条件,研究了不同营养条件对两种微藻的生长状况和种间竞争参数的影响.结果表明:随着氮、磷浓度的增加,两种藻的最大生物量均呈增加趋势,混合培养中两种微藻的比生长率低于单独培养.在混合培养中,生长前期中肋骨条藻是优势种,随着培养时间的延长,东海原甲藻成为优势种,且优势种发生变化的时间与营养条件有关.混合培养中,东海原甲藻拐点出现时间在0.5 ～4.9 d,中肋骨条藻为0～2.6d,东海原甲藻拐点出现时间晚于中肋骨条藻.在各营养条件下,东海原甲藻对中肋骨条藻的竞争抑制参数β均高于中肋骨条藻对东海原甲藻的竞争抑制参数α,当N为128μmol·L-1、P为32 μmol·L-1时,东海原甲藻的竞争能力是中肋骨条藻的3.8倍,两者差异最为明显.     

不同氮源对中肋骨条藻(Skeletonema costatum)生长的影响

中肋骨条藻(Skeletonema costatum)是近岸海洋环境中常见的优势硅藻。为了解氮污染对硅藻生长及海洋初级生产力的影响,本文研究了中肋骨条藻对NO3-、尿素以及5种氨基酸的利用能力,并研究了中肋骨条藻在NO3-和尿素不同比例混合下的生长状况,同时还测定了中肋骨条藻在以NO3-为氮源下的最大生长速率(μmax)和半饱和常数(Ks)。结果表明:中肋骨条藻不仅可以有效利用无机的NO3-,还可以利用尿素以及丙氨酸、甘氨酸、苏氨酸、丝氨酸和天门冬氨酸6种有机氮源,其中NO3-培养组的藻细胞生长最佳,尿素组其次;氨基酸中最易被吸收利用的是丙氨酸,而苏氨酸、丝氨酸和天门冬氨酸的利用率相近,甘氨酸较低。在NO3-和尿素复合氮源条件下,中肋骨条藻的生长状况比单一氮源时更好,最佳生长出现在尿素含量在75%的实验组中。在实验设置的NO3-浓度下(0~1000μmol·L-1),中肋骨条藻生长速率和环境容量随氮浓度的增加而增加,对NO3-的μmax和Ks分别为0.426 d-1和25.0μmol·L-1。本研究结果表明,中肋骨条藻可以有效利用多种有机氮源,对无机氮具有较低的亲和能力,适合在高氮环境下生长,而近岸海域丰富的有机氮以及较高的氮浓度可能是其爆发性生长引发赤潮的重要原因。     

塔玛亚历山大藻的生长研究

在室内条件下研究了温度、N和P、维生素、抗生素对有毒赤潮甲藻塔玛亚历山大藻(香港株Ⅱ)生长的影响。结果表明,塔玛亚历山大藻的最适生长温度为21—25℃,最适N、P浓度分别为882—1765μmol/L和18—72μmol/L。复合维生素B1、B6、B12的加入有利于塔玛亚历山大藻的生长,而50U/mL以上的抗生素(氨苄青霉素液体)则对其有明显的抑制作用。     

温度对旋链角毛藻(Chaetoceros curvisetus)和米氏凯伦藻(Karenia mikimotoi)生长及硝酸还原酶活力的影响

选用东海常见的两种赤潮肇事藻种:旋链角毛藻和米氏凯伦藻,采用一次性培养实验,研究了不同温度对两种赤潮藻生长及硝酸还原酶活力(NRA)的影响.研究结果表明,在10℃~30℃条件下旋链角毛藻均能正常生长,且生长曲线均符合S-logistic2种群增长模型;而米氏凯伦藻在10℃和30℃条件下不能正常生长,在其他温度条件下生长情况与旋链角毛藻相似.温度适宜时,两种藻的硝酸还原酶活力最大值(NRAmax)、最大生长速率(μmax)和终止生物量(Bf)随温度的变化趋势基本一致,说明温度的高低可通过影响细胞硝酸还原酶活力大小间接影响藻类的生长.旋链角毛藻单位体积的NRAmax和最大生长速率均大于米氏凯伦藻,说明旋链角毛藻能够更好地吸收利用硝酸盐.     

赤潮藻米氏凯伦藻(Karenia mikimotoi)藻际细菌群落及其原位抑藻效应

采用16S rRNA高通量测序技术分析了赤潮藻米氏凯伦藻藻际细菌群落组成,探究了原位营养刺激下藻际细菌对米氏凯伦藻生长的抑制作用。结果表明:米氏凯伦藻藻际环境以Proteobacteria为主(α-Proteobacteria 48.1%,γ-Proteobacteria 8.6%),其次Sphingobacteria 22.4%,Cyanobacteria 10.8%。通过加混合抗生素获得了米氏凯伦藻无菌培养体系,验证了所加营养液对藻的生长无明显影响。向米氏凯伦藻培养体系中添加体积比5%的2216E培养基、甘油和柠檬酸钠时,米氏凯伦藻的生长受到显著抑制,抑制率分别为99.6%、96.0%和91.5%。对2216E刺激下藻际细菌群落变化进行分析表明,α-Proteobacteria丰度增至58.7%,其中Rhodobacteraceae由8.7%增至22.3%,Thalassobaculum由2.7%增至13.3%,γ-Proteobacteria增至13.3%,其中Pseudomonas由2.4%增至4.9%。米氏凯伦藻藻际环境存在着丰富的微生物类群,适量外部营养刺激可以实现藻际细菌...     

氮和磷浓度对中肋骨条藻和锥状斯氏藻种间竞争的影响

采用室内单养和混养方法, 设置不同的氮、磷营养条件, 研究了氮、磷对中肋骨条藻(Skeletonema costatum)和锥状斯氏藻(Scrippsiella trochoidea)种间竞争的影响。结果表明: 混养时各氮和磷浓度下均呈现培养初期中肋骨条藻为优势种、培养后期锥状斯氏藻为优势种的变化趋势, 但随着氮、磷浓度的升高, 中肋骨条藻作为优势种的时间延长; 与单养时相比, 混养中两种微藻的最大密度受到不同程度的抑制, 表现出氮、磷浓度越高, 受抑制的程度越大的特征, 且与锥状斯氏藻相比, 中肋骨条藻的最大密度受到抑制的程度更大。混养时两种微藻均是在氮、磷浓度最高时, 抑制起始点出现时间最长, 随着氮、磷浓度的降低, 抑制起始点出现时间缩短; 各氮、磷浓度条件下, 锥状斯氏藻对中肋骨条藻的竞争抑制参数明显高于中肋骨条藻对锥状斯氏藻的竞争抑制参数, 当氮浓度为512 μmol·L^-1、磷浓度为2 μmol·L ^-1时, 竞争结果是锥状斯氏藻获胜; 其余氮、磷浓度条件下为两种微藻不稳定共存。     

蒽和UV—B辐射对米氏凯伦藻生长的影响

为研究多环芳烃蒽（anthracene）和UV—B辐射对米氏凯伦藻（Kreniamikimotoi Hansen）的单独效应和联合毒性效应,采用实验生态学的方法,以米氏凯伦藻为实验材料,蒽质量浓度设为0．00、6．25、11．50、20．00、35．00、62．50μg／L,UV—B辐射剂量设为0．00、0．375、1．125、2．25、3．75、6．00J／m^2。实验结果表明：对米氏凯伦藻的生长,多环芳烃蒽具有抑制效应,小剂量的UV-B具有刺激作用,随着剂量的增加表现出抑制作用,蒽与UV—B的联合则表现出更强的抑制作用,二者表现为协同作用。蒽和UV—B对米氏凯伦藻的96h—EC。分别为15．35μg／L和2．843J／m^2,而蒽在UV—B辐射条件下的96h-EC50为7．376μg／L。     

东海原甲藻与中肋骨条藻的种间竞争特征

对东海原甲藻和中肋骨条藻按照起始Chl-a比1∶5、1∶1和5∶1进行了f/2条件下的共培养实验,以探讨这两种藻的种间竞争特征。实验结果表明在共培养体系中,中肋骨条藻完全占优势,而东海原甲藻的生长受到明显的抑制。应用Lotka-Volterra种间竞争模型对共培养实验进行模拟的结果表明,东海原甲藻与中肋骨条藻的种间竞争结果与初始密度配比无关,中肋骨条藻总会竞争胜过东海原甲藻。为了探讨他感作用对东海原甲藻和中肋骨条藻种间竞争的影响,采用了中肋骨条藻的无藻细胞滤液来进行培养实验。实验结果显示,中肋骨条藻滤液对东海原甲藻及其本身的生长均无明显影响,这表明他感作用并非中肋骨条藻获得优势的主要竞争方式。     

Genome Analysis inNeurospora crassa;Cloning of Four Lociarginine-1(arg-1),methionine-6(met-6),unknown-7(un-7), andribosome production-1(rip-1) and Associated Chromosome Walking

We have cloned fourNeurospora crassagenes by complementation analysis. Cloned genes include thearginine-1(arg-1),methionine-6(met-6),unknown-7(un-7), andribosome production-1(rip-1) loci. Chromosome walks were initiated in ordered cosmid libraries from the cloned loci. A total of about 700 kb of theNeurosporagenome is covered in these walks.     

Effects of MULTIFOLIATE-PINNA, AFILA, TENDRIL-LESS and UNIFOLIATA genes on leafblade architecture in Pisum sativum

In order to dissect the genetic regulation of leafblade morphogenesis, 16 genotypes of pea, constructed by combining the wild-type and mutant alleles of MFP, AF, TL and UNI genes, were quantitatively phenotyped. The morphological features of the three domains of leafblades of four genotypes, unknown earlier, were described. All the genotypes were found to differ in leafblade morphology. It was evident that MFP and TL functions acted as repressor of pinna ramification, in the distal domain. These functions, with and without interaction with UNI, also repressed the ramification of proximal pinnae in the absence of AF function. The expression of MFP and TL required UNI function. AF function was found to control leafblade architecture multifariously. The earlier identified role of AF as a repressor of UNI in the proximal domain was confirmed. Negative control of AF on the UNI-dependent pinna ramification in the distal domain was revealed. It was found that AF establishes a boundary between proximal and distal domains and activates formation of leaflet pinnae in the proximal domain.     

Presence of Rhizobium Etli bv . Phaseoli and Rhizobium Gallicum bv . Gallicum in Egyptian Soils

Seven bean rhizobial strains EBRI 2, 3, 21, 24, 26, 27 and 29 identified as Rhizobium etli, and EBRI 32 identified as Rhizobium gallicum, isolated from Egyptian soils and which nodulated Phaseolus vulgaris efficiently, were subjected to hybridization with a nifH probe in order to estimate the copy number of this gene. Seven strains (EBRI 2, 3, 21, 24, 26, 27 and 29) which were only able to nodulate Phaseolus vulgaris, contained three copies of the nifH gene, consistent with their identification as Rhizobium etli bv. phaseoli. Only one strain (EBRI 32) which nodulated both Phaseolus vulgaris and Leucaena leucocephala, had one copy of nifH gene. This confirmed the classification of this strain as Rhizobium gallicum bv. gallicum.     

The phylogenetic placement of the Leucogastrales, including Mycolevis siccigleba (Cribbeaceae), in the Albatrellaceae using morphological and molecular data

The morphology of many hypogeous fungi converges on a homogeneous reduced form, suggesting that disparate lineages are subject to a uniform selection pressure. The primary goal of this study was to evaluate the morphology and infer the phylogeny of the Leucogastrales with Mycolevis siccigleba using a Bayesian methodology. A comprehensive morphological assessment was used for an a priori phylogenetic inference to guide the sequencing effort. All structures except spore ornamentation pointed to the Albatrellaceae as the most likely sister taxon. Polyporoletus sublividus, a close relative of Albatrellus, produces ornamented basidiospores with a similar structure to M. siccigleba basidiospores. The ITS from 30 taxa was used for the molecular phylogenetic analysis. P. sublividus was found sister to Mycolevis. Leucophleps spinispora and L. magnata formed a group sister to the Polyporoletus/Mycolevis group, whereas Leucogaster was polyphyletic with respect to the core of the Leucogastrales and sister to A. caeruleoporus. This relationship was expected as previously undescribed chlamydospores produced by members of Albatrellus had a similar morphology to the basidiospores of L. rubescens.     

Fluorescent labeling of (Na + K)-ATPase by 5-iodoacetamidofluorescein

5-Iodoacetamidofluorescein (5-IAF) covalently labels dog kidney (Na⁺ + K⁺)-ATPase with approximately 2 moles incorporated per mole of enzyme. ATPase and K⁺-phosphatase activities are fully retained after reaction, and the kinetic parameters for Na⁺, K⁺, Mg²⁺, ATP and p-nitrophenyl phosphate are likewise not significantly affected. The fluorescence of the bound 5-IAF is increased by ATP, Na⁺, and Mg²⁺, and decreased by K⁺. These fluorescence changes likely reflect ligand-induced stabilization of the E₁ or E₂ states of the enzyme.     

转Cry1Ac/1Ab基因棉花对异色瓢虫生长发育及其捕食功能的影响

【目的】为探究转Cry1Ac/1Ab基因棉花对异色瓢虫生长发育及其捕食功能的影响。【方法】以转Cry1Ac/1Ab基因棉与其亲本常规棉为实验材料,利用取食不同棉花品种叶片的棉铃虫饲喂异色瓢虫幼虫。【结果】与常规亲本棉相比,取食饲喂转基因棉花叶片的初孵棉铃虫幼虫的异色瓢虫幼虫从1龄发育至化蛹期时间延长0.77 d,但差异不显著;除1龄幼虫体重增加(0.0773 mg)外,其余各龄期幼虫体重均有所下降,但差异均不显著;异色瓢虫1、2、3、4龄幼虫对初孵棉铃虫捕食量均随棉铃虫密度的增加而增加,捕食功能反应均符合HollingⅡ圆盘方程。【结论】转Cry1Ac/1Ab基因棉花对异色瓢虫生长发育无显著影响,饲喂取食转Cry1Ac/1Ab基因棉花的棉铃虫对异色瓢虫捕食功能无显著差异。     

A new fungal genus, Teracosphaeria, with a phialophora-like anamorph (Sordariomycetes, Ascomycota)

The new genus and species Teracosphaeria petroica is described for a perithecial ascomycete and its anamorph occurring on decayed wood collected in New Zealand. The fungus produces immersed, non-stromatic ceratosphaeria-like perithecia in nature, with hyaline, septate ascospores produced in unitunicate, non-amyloid asci. The anamorph produced in vitro is phialophora-like with lightly pigmented phialides terminating in flaring, deep collarettes that are often noticeably brown with conspicuous periclinal thickening. Phylogenetic analysis of LSU rDNA sequence data indicates that this fungus is distinct from morphologically similar fungi classified in the Chaetosphaeriales, the Trichosphaeriales or the Magnaporthaceae. It forms a monophyletic group with recently described, chaetosphaeria-like ascomycetes, such as the pyrenomycete genus Mirannulata, and shows affinity with the anamorphic species Dictyochaeta cylindrospora. The usefulness of describing anamorph genera for morphologically reduced anamorphs, when anamorph characteristics are actually part of the holomorph diagnosis, is discussed. An apparently contradictory example of the so-called Cordana and Pseudobotrytis anamorphs of Porosphaerella spp. is also discussed.