营养盐因子对细基江蓠繁枝变种氮、磷吸收速率的影响

在实验室条件下,研究了营养盐因子对细基江蓠繁枝变种的氮、磷吸收速率的影响。分别进行了营养盐浓度与温度双因子试验,氮磷比与荧 浓度双因子试验肽不同化合态氮比例单因子试验。（1）氮、磷的吸收速率随营养盐浓度的升高而增大,氮的吸收速率在21℃,总氮浓度为100μmol/L时最大,达2.58μmol/(g.h);磷的吸收速率在31℃,总磷为6．3μmol/L时最大,达0.17μmol/(g.h),温度与营养盐浓度有显著的交互作用效应。（2）当氮浓度一定时,环境氮磷比对氮的吸收率无显著影响,但对磷的吸收速率有显著影响,藻中收的氮磷比随环境氮磷比的不同而变化,（3）对3种不同化合态氮的吸收速率与培养液中各种氮占总无机氮的比例呈正相关,当三比例相同时,对NH4^ -N、NO3^--N格NO2^-析吸收分别占总吸收氮的40．7％、28．5％和30．8％。     

啃食性端足类强壮藻钩虾对筼筜湖三种大型海藻的摄食选择性

为了评估啃食性端足类强壮藻钩虾Ampithoe valida对筼筜湖大型海藻群落的影响,作者在实验室内开展了强壮藻钩虾对筼筜湖三种大型海藻(绿藻石莼Ulva lactuca和根枝藻Rhizoclonium sp.、红藻细基江蓠繁枝变种Gracilaria tenuistipitata var. liui)的摄食实验,并分析了大型海藻的营养价值是否对强壮藻钩虾的摄食选择产生影响。结果显示,在无选择性摄食实验中,强壮藻钩虾的摄食率与海藻的干湿比和鲜藻总有机碳含量有着明显的负相关关系,这表明强壮藻钩虾有明显的补偿摄食行为,能通过增加低营养价值藻类的摄食量来满足自身代谢的需求。强壮藻钩虾对绿藻石莼和根枝藻有明显的摄食偏好,对它们的摄食率分别占总摄食率的40.6%和57.1%,而红藻细基江蓠繁枝变种则属于偶然性摄食的种类,海藻的营养价值并没有对强壮藻钩虾的摄食选择产生影响。不过,强壮藻钩虾对绿藻的摄食偏好并没有在筼筜湖形成一个以红藻占主导的大型海藻群落,这可能是由于筼筜湖超富营养化的水体使得来自强壮藻钩虾的下行控制已经无法抑制来自超富营养化的水体通过上行控制对绿藻生长的促进作用。     

养虾废水生物处理过程中营养负荷的动态变化

本文研究了几种方法对养虾废水的处理效果.在水体自净作用及投加翡翠贻贝、细基江蓠繁枝变种、活菌制剂和混合投加上述三种生物等5种处理条件下,测定了养殖废水中的氨、亚硝酸盐、硝酸盐、总氮、磷酸盐、总磷、溶解态COD、颗粒态COD、总COD、浮游植物总数、浮游动物总数和细菌总数等水质指标.结果表明:处理过程中各营养负荷变化趋势不同且相互之间有联系;各种处理对无机氮的减少有一定效果,并都使细菌总数明显下降;各处理不能降低COD含量,但可以改变COD形态;投加贻贝能明显抑制浮游植物的数量.     

毛竹及其变种细根化学计量特征

以安徽太平竹类植物种质资源保存库毛竹及其变种(花毛竹、黄槽毛竹、厚壁毛竹、金丝毛竹)为研究对象,分析比较毛竹及其变种3个年龄阶段(1、3、5年生)细根化学计量特征,探究毛竹及其变种细根养分策略。结果表明:1)毛竹及其变种细根化学计量特征主要受竹种的影响,年龄对毛竹及其变种细根化学计量特征的影响较小;2)毛竹及其变种细根的养分元素含量存在差异性,生长季花毛竹细根的全C、全N、全P含量较高,其他竹种则相对较低;毛竹细根C∶N、C∶P最高,毛竹及其变种细根N∶P差异性不显著;3)花毛竹、金丝毛竹细根的N和P含量具有显著的异速生长关系,毛竹及其变种的细根普遍受P元素的限制;其他竹种细根C、N、P养分元素之间异速生长关系不显著,说明其养分分配具有相似性;4)毛竹及其变种细根化学计量与土壤化学性质存在一定的相关性,细根C∶P主要受土壤有机质与全P的制约。因此,与土壤环境因素相比,毛竹及其变种细根化学计量特征受竹种遗传特性的限制作用更大;毛竹及其变种细根化学计量特征受其所处生长阶段的影响,不同竹种的养分元素利用策略存在差异性。     

科尔沁沙地黄柳再生枝与现存枝形态和光合特征的比较

对黄柳经平茬后形成的再生枝和未平茬的现存枝的光合作用、株高、基径、叶片大小等形态特征进行了比较研究,结果表明再生枝比现存枝具明显的生长优势;再生枝高度及高度频度分布均与现存枝十分接近;再生枝基径显著大于现存枝,前者过细和过粗枝条的比例均较低,基径频度分布趋于正态分布,后者细枝条比例较高,基径频度分布符合对数正态分布;同时再生枝叶片更长、更宽,叶长和叶宽接近于平均值的叶子所占比例更大。在上午时段内叶片温度和光合有效辐射随气温同步上升,黄柳叶片的净光合速率总体上都比较高,再生枝和现存枝之间的表现差异明显。     

湖南轮藻新植物

本文报道了产自湖南省的轮藻1新种、4新变种、 5个亚洲新记录和8个中国新 记录：四盾轮藻Chara quadriscutula sp．nov., 布氏轮藻柱孢变种 C．braunii Gmelin var． cylindrospora,var．nov., 松形轮藻湖南变种 C．hydropitys var．hunanensis,var．nov., 腋球丽 藻二型变种 Nitella axilliformis Imahori var．biformis var． nov．, 小果丽藻单果变种N． microcarpa Braun var．unicarpa,var．nov．以及小果丽藻N．microcarpa Braun,细枝丽藻 N． leptoclada Braun,安氏丽藻N．annandalei Pal,疏丝丽藻N.confervacea A Braun, 细形丽 藻N．gracilliformis J. Groves,倒置丽藻N．inversa Imahori,武藏丽藻N.musashiensis Mo- rioka,稀脊丽藻N．paucicostata T. F. Allen,尖头丽藻戈尔梅变种 N． acuminata var． gollmeriana(A．Br．)Zanev．＆ R．D. Wood,博尔德鸟巢藻Tolypella boldii Sawa,长枝轮 藻Chara longifolia Robinson,匹斯汀轮藻C．pistianensis J．Vilhelm 和格氏轮藻 C.grovesiiPal。     

中国温带和亚热带8个树种叶和吸收根协同分解

叶和细根(2mm)是森林生态系统的分解主体,二者是否协同分解,将极大影响所属植物在生态系统碳(C)循环中的物种效应。已有研究显示,叶和细根的分解关系具有极大的不确定性,认为很大程度上归因于细根内部具有高度的异质性,导致叶和细根在功能上不相似。为此,使用末梢1级根和细根根枝作为研究对象,它们在功能上同叶类似,称为吸收根。通过分解包法,分别在黑龙江帽儿山和广东鹤山,研究了2个阔叶树种和2个针叶树种(共8个树种)的叶和吸收根持续2a多的分解。结果发现,分解速率k(a~(-1),负指数模型)在8个树种整体分析时具有正相关关系(P0.05),在相同气候带或植物生活型水平上是否相关,受叶的分解环境及吸收根类型的影响;N剩余量整体上并不相关,亚热带树种的叶和细根根枝的N剩余量在分解1a后高度显著正相关,温带树种的叶和1级根的N剩余量在分解2a后显著高度正相关。本研究中,根-叶分解过程是否受控于相同或相关的凋落物性质是决定根-叶分解是否相关的重要原因,其中分解速率与酸溶组分正相关、与酸不溶组分负相关。比较已有研究,总结发现,根-叶分解关系受物种影响较大,暗示气候变化导致物种组成的改变将极大影响地上-地下关系,也因此影响生态系统C循环。     

中亚热带天然林土壤CH_4吸收速率对模拟N沉降的响应

陆地森林土壤是重要的大气甲烷(CH4)汇,大气氮(N)沉降增加对森林土壤CH4吸收速率影响突出。运用静态箱-气相色谱法对中亚热带天然林土壤CH4吸收速率对模拟N沉降的响应进行连续3a的观测;试验作3种N处理,分别为对照(CK,0 kg N·hm-2·a-1)、低氮(LN,50 kg N·hm-2·a-1)和高氮(HN,100 kg N·hm-2·a-1),每种处理重复3次,每个月采集气体1次,同时测定0—5 cm土壤温度和0—12 cm土壤含水量;分析不同N沉降水平土壤CH4吸收速率的差异、动态变化以及对土壤含水量和土壤温度响应,并探讨N沉降对土壤理化性质的影响。结果显示:天然林土壤(CK)平均CH4吸收速率为(-62.78±14.39)μg·m-2·h-1,LN和HN土壤平均CH4吸收速率分别下降了30.21%、7.24%,CK、LN和HN处理土壤CH4吸收速率季节变化趋势相似;观测期间土壤CH4吸收速率对LN响应达到显著水平(P0.05),对HN响应则不显著(P0.05);LN、HN处理前两年对土壤CH4吸收速率抑制作用均不显著(P0.05),但在第3年LN极显著降低了土壤CH4吸收速率(P0.01),HN处理对土壤CH4吸收速率的影响则在第3年表现为显著抑制作用(P0.05),表明土壤CH4吸收速率对N沉降的响应随着N沉降时间的持续呈抑制效应加剧的趋势。相关分析表明:CK与HN土壤CH4吸收速率与土壤温度和土壤含水量均有显著相关性(P0.05),但LN土壤CH4吸收速率仅与土壤含水量显著相关(P0.05),表明土壤含水量是控制各N沉降处理土壤CH4吸收速率动态的主要环境因子。此外,LN、HN处理下土壤pH均极显著降低(P0.01),但LN土壤pH极显著低于HN(P0.01);LN处理极显著提高了土壤C/N比(P0.01),HN处理则相反;LN和HN处理对土壤NH+4-N、NO-3-N、可溶性总N(TDN)、可溶性有机碳(DOC)、地面凋落物量、地下0—10 cm细根生物量影响均不显著(P0.05),表明一定时期内N沉降首先引起了土壤pH和土壤C/N比的显著变化。     

新疆菱形藻属和细齿藻属(硅藻门)中国新记录植物

2001年7月至8月、2007年7月分别两次在新疆各地采集硅藻标本,经显微观察,共鉴定出菱形藻属和细齿藻属(硅藻门)中国新记录植物11种1变种,其中菱形藻属9种:额雷菱形藻(Nitzschia eglei Lange-Bertalot)、弯曲菱形藻(N.flexa Schumann)、多样菱形藻(N.diversa Hustedt)、化石菱形藻[N.fossilis (Grunow) Grunow]、吉斯纳菱形藻(N.gessneri Hustedt)、平庸菱形藻(N.inconspicua Grunow)、辐射菱形藻(N.radicula Hustedt)、常见菱形藻(N.solita Hustedt)和粗肋菱形藻(N.valdecostata Lange-Bertalot & Simonsen);细齿藻属2种1变种:科瑞提细齿藻[Denticula creticola (strup) Lange-Bertalot & Krammer]、库津细齿藻汝牧变种(D.kuetzingii var.rumrichae Krammer)和强壮细齿藻[D.valida (Pedicino) Grunow].并对其12种新记录植物的分类学特征进行了详细的描述.     

不同密度下沙地樟子松碳、氮、磷化学计量及养分重吸收特征

以樟子松纯林为对象,研究了6种密度(490、750、1110、1550、1930、2560株·hm^-2)下不同器官(当年生叶、一年生叶、当年生枝、一年生枝和细根)的C、N、P化学计量特征及叶片N、P重吸收效率。结果表明:随着林分密度增加,当年生和一年生叶C含量及当年生和一年生枝P含量呈降低趋势(1550株·hm^-2除外),当年生枝、一年生枝和细根C含量、各器官N含量及当年生叶、一年生叶和细根P含量呈先升高后降低趋势,在1550株·hm^-2密度下最高;当年生叶、一年生叶和细根C∶N、当年生叶和枝C∶P以及当年生叶、当年生和一年生枝N∶P呈先降低后升高趋势,一年生叶和枝C∶P呈升高趋势;凋落叶C含量先增加后降低,N含量呈升高趋势,P含量先降低后升高;叶片N重吸收效率下降,P重吸收效率先升高后降低,N重吸收效率:P重吸收效率呈下降趋势。因此,随樟子松林分密度增加,N限制减弱,P限制增强。当林分密度为1550株·hm^-2时,养分更多分配到叶片和细根,促进高生长,为樟子松人工林适宜经营密度。     

盐度与体重对台湾罗非鱼耗氧率的影响

在盐度为淡水、7、14、2 1、2 8和 35的条件下 ,测定了 3个体重组 (1.5 7～ 4.87g ,7.0 7～ 18.2 3g和31.5 0～ 5 2 .41g)的台湾红罗非鱼的耗氧率 ,方差分析表明 ,盐度对台湾红罗非鱼的耗氧率有极显著的影响(P <0 .0 1) .体重范围为 1.5 7～ 18.2 4g时 ,盐度 7实验组的耗氧率最高 ,分别为 0 .41mgO2 ·g-1·h-1(1.5 7～ 4.78g)和 0 .34mgO2 ·g-1·h-1(7.0 7～ 18.2 3g) ,体重范围为 31.5 0～ 5 2 .41g时 ,耗氧率最高值出现在盐度 35组 ,为 0 .30mgO2 ·g-1·h-1.耗氧率最低值也因体重范围的不同而出现在不同的盐度 ,体重范围为1.5 7～ 4.78g时 ,盐度 14组的耗氧率最低 ,为 0 .2 8mgO2 ·g-1·h-1,体重范围在 7.0 7～ 5 2 .41g时 ,耗氧率的最低值均出现在盐度 2 1组 ,其中体重范围 7.0 7～ 18.2 3g的最低值为 0 .2 2mgO2 ·g-1·h ,而体重范围31 5 0～ 5 2 .41g的最低耗氧率为 0 .13mgO2 ·g-1·h-1.协方差分析表明 ,盐度和体重对台湾红罗非鱼的耗氧率存在极显著的交互作用 (P <0 .0 1) .     

Muscle glucose uptake of obese Zucker rats trained at two different intensities

Exercise training reduces the muscle insulin resistance of the obese Zucker rat. The purpose of the present study was to determine whether the magnitude of this training response is exercise intensity specific. Obese Zucker rats were randomly divided into sedentary (SED), low-intensity (LI), and high-intensity (HI) exercise groups. For the LI rats, exercise training consisted of running on a rodent treadmill at 18 m/min up an 8% grade for 90 min. Rats in the HI group ran at 24 m/min up an 8% grade for four 17-min bouts with 3 min between bouts. Both exercise groups performed the same amount of work and trained 5 days/wk for 7 wk. To evaluate muscle insulin resistance, rat hindlimbs were perfused for 30 min with perfusate containing 6 mM glucose (0.15 mu Ci of D-[14C(U)] glucose/ml) and either a maximal (10.0 mU/ml) or a submaximal (0.50 mU/ml) insulin concentration. Perfusions were performed 48-56 h after the last exercise bout and a 12-h fast. In the presence of 0.5 mU/ml insulin, the rate of muscle glucose uptake was found to be significantly faster for the HI (9.56 +/- 0.66 mumol.h-1.g-1) than for the LI (7.72 +/- 0.65 mumol.h-1.g-1) and SED (6.64 +/- 0.44 mumol.h-1.g-1) rats. The difference in glucose uptake between the LI and SED rats was not significant. In the presence of 10.0 mU/ml insulin, the rate of glucose uptake was significantly faster for the HI (16.43 +/- 1.02 mumol.h-1.g-1) than for the LI rats (13.76 +/- 0.84 mumol.h-1.g-1) and significantly faster for the LI than for the SED rats (11.02 +/- 0.35 mumol.h-1.g-1).(ABSTRACT TRUNCATED AT 250 WORDS)     

Optimization of biomass, total carotenoids and astaxanthin production in Haematococcus pluvialis Flotow strain Steptoe (Nevada, USA) under laboratory conditions

The microalga Haematococcus pluvialis Flotow is one of the natural sources of astaxanthin, a pigment widely used in salmon feed. This study was made to discover optimal conditions for biomass and astaxanthin production in H. pluvialis from Steptoe, Nevada (USA), cultured in batch mode. Growth was carried out under autotrophic (with NaNO3, NH4Cl and urea) and mixotrophic conditions (with 4, 8, 12 mM sodium acetate) under two photon flux densities (PFD) (35 and 85 mumol m-2 s-1). The carotenogenesis was induced by 1) addition of NaCl (0.2 and 0.8%), 2) N-deprivation and 3) high PFD (150 mumol m-2 s-1). Total carotenoids were estimated by spectrophotometry and total astaxanthin by HPLC. Ammonium chloride was the best N-source for growth (k = 0.7 div day-1, 228-258 mg l-1 and 2.0 x 10(5)-2.5 x 10(5) cells ml-1 at both PFD, respectively). With increasing acetate concentration, a slight increment in growth occurred only at 85 mumol m-2 s-1. Light was the best inductive carotenogenic factor, and the highest carotenoid production (4.9 mg l-1, 25.0 pg cell-1) was obtained in cultures pre-grown in nitrate at low light. The NaCl caused an increase in carotenoid content per cell at increasing salt concentrations, but resulted in a high cell mortality and did not produce any increment in carotenoid content per volume compared to cultures grown at 150 mumol m-2 s-1. The highest carotenoid content per cell (22 pg) and astaxanthin content per dry weight (10.3 mg g-1) (1% w/w) were obtained at 85 mumol m-2 s-1 with 0.8% NaCl.     

Urea synthesis from ammonia in periportal and pericentral regions of the liver lobule. Effect of oxygen

Rates of urea synthesis were determined in periportal and pericentral regions of the liver lobule in perfused liver from fed, phenobarbital-treated rats by measuring the extra O2 consumed upon infusion of NH4Cl with miniature O2 electrodes and from decreases in NADPH fluorescence detected with micro-light-guides. Urea synthesis by the perfused rat liver supplemented with lactate (5 mM), ornithine (2 mM) and methionine sulfoximine (0.15 mM), an inhibitor of glutamine synthetase, was stimulated by stepwise infusion of NH4Cl at doses ranging from 0.24 mM to 3.0 mM. A good correlation (r = 0.92) between decreases in NADPH fluorescence and urea production was observed when the NH4Cl concentration was increased. Sublobular rates of O2 uptake were determined by placing miniature oxygen electrodes on periportal or pericentral regions of the lobule on the liver surface, stopping the flow and measuring decreases in oxygen tension. From such measurements local rates of O2 uptake were calculated in the presence and absence of NH4Cl and local rates of urea synthesis were calculated from the extra O2 consumed in the presence of NH4Cl and the stoichiometry between O2 uptake and urea formation. Rates of urea synthesis were also estimated from the fractional decrease in NADPH fluorescence, caused by NH4Cl infusion in each region, measured with micro-light-guides and the rate of urea synthesis by the whole organ. When perfusion was in the anterograde direction, maximal rates of urea synthesis, calculated from changes in fluorescence, were 177 +/- 31 mumol g-1 h-1 and 61 +/- 24 mumol g-1 h-1 in periportal and pericentral regions, respectively. When perfusion was in the retrograde direction, however, rates were 76 +/- 23 mumol g-1 h-1 in periportal areas and 152 +/- 19 mumol g-1 h-1 in pericentral regions. During perfusion in the anterograde direction, urea synthesis, calculated by changes in O2 uptake, was 307 +/- 76 mumol g-1 h-1 and 72 +/- 34 mumol g-1 h-1 in periportal and pericentral regions, respectively. When perfusion was in the retrograde direction, urea was synthesized at rates of 54 +/- 17 mumol g-1 h-1 and 387 +/- 99 mumol g-1 h-1 in periportal and pericentral regions, respectively. Thus, maximal rates of urea synthesis were dependent upon the direction of perfusion. In addition, rates of urea synthesis were elevated dramatically in periportal regions when the flow rate per gram liver was increased (e.g. 307 versus 177 mumol g-1 h-1).(ABSTRACT TRUNCATED AT 400 WORDS)     

苋菜的光合特性

宽菜Amaranthus cruentus cv.生长在调控的温室条件。在光强0至800μmol.m~(-2)S~(-1),光合速率(PN,μmol.CO_2m~(-2)、s~(-1))随光强(PFD,μmol、m~(-2)、s~(-1))增高而增大,其关系为PN=56.82 PFD×10~(-3)—2.13。光补偿点为60μmol.m~(-2)、s~(-1)。叶片在1400 μmol.m~(-2)、s~(-1)达到光合光饱和点。在叶温35℃,叶片/空气水蒸汽压陡度20 m Pa、Pa~(-1)和外界CO_2浓度340μ1、1~(-1),光饱和光合速率为51.63±4.90μ mol.CO_2、m~(-2)、S~(-1)。在光强0至600μmol.m~(-2)、s~(-1),气孔传道率随光强增高而增大。光强高于600μmol.m~(-2)、s~(-1),气孔传道率变化较小。细胞间CO_2浓度为120μ1.1~(-1)由于细胞间CO_2浓度在光合速率——CO_2关系曲线的转折点,可能表明光合作用不受气孔限制。结果表明,苋菜适于高光强环境生长,在干旱条件下具有高的光合速率。     

Gluconeogenesis predominates in periportal regions of the liver lobule

Rates of gluconeogenesis from lactate were calculated in periportal and pericentral regions of the liver lobule in perfused rat livers from increases in O2 uptake due to lactate. When lactate (0.1-2.0 mM) was infused into livers from fasted rats perfused in either anterograde or the retrograde direction, a good correlation (r = 0.97) between rates of glucose production and extra O2 uptake by the liver was observed as expected. Rates of oxygen uptake were determined subsequently in periportal and pericentral regions of the liver lobule by placing miniature oxygen electrodes on the liver surface and measuring the local change in oxygen concentration when the flow was stopped. Basal rates of oxygen uptake of 142 +/- 11 and 60 +/- 4 mumol X g-1 X h-1 were calculated for periportal and pericentral regions, respectively. Infusion of 2 mM lactate increased oxygen uptake by 71 mumol X g-1 X h-1 in periportal regions and by 29 mumol X g-1 X h-1 in pericentral areas of the liver lobule. Since the stoichiometry between glucose production and extra oxygen uptake is well-established, rates of glucose production in periportal and pericentral regions of the liver lobule were calculated from local changes in rates of oxygen uptake for the first time. Maximal rates of glucose production from lactate (2 mM) were 60 +/- 7 and 25 +/- 4 mumol X g-1 X h-1 in periportal and pericentral zones of the liver lobule, respectively. The lactate concentrations required for half-maximal glucose synthesis were similar (0.4-0.5 mM) in both regions of the liver lobule in the presence or absence of epinephrine (0.1 microM). In the presence of epinephrine, maximal rates of glucose production from lactate were 79 +/- 5 and 59 +/- 3 mumol X g-1 X h-1 in periportal and pericentral regions, respectively. Thus, gluconeogenesis from lactate predominates in periportal areas of the liver lobule during perfusion in the anterograde direction; however, the stimulation by added epinephrine was greatest in pericentral areas. Differences in local rates of glucose synthesis may be due to ATP availability, as a good correlation between basal rates of O2 uptake and rates of gluconeogenesis were observed in both regions of the liver lobule in the presence and absence of epinephrine. In marked contrast, when livers were perfused in the retrograde direction, glucose production was 28 +/- 5 mumol X g-1 X h-1 in periportal areas and 74 +/- 6 mumol X g-1 X h-1 in pericentral regions.(ABSTRACT TRUNCATED AT 400 WORDS)     

N2-Fixation in Cyanobacterial Mats from Ponds on the McMurdo Ice Shelf,Antarctica

We have investigated the ecological importance of N2-fixation in cyanobacterial mats, dominated by oscillatorean species, in ponds of the Bratina Island area of the McMurdo Ice Shelf, Antarctica (78°S, 166°E). Nitrogenase activity, estimated as acetylene reducing activity (ARA), was found in all the mats investigated (n = 16). The average ARA was 75.9 mmol ethylene m-2 h-1, ranging from 6 to 201 mmol ethylene m-2 h-1. Nitrogenase activity was positively correlated with dissolved reactive phosphorus concentration in pondwater and the C/N ratio of the mat, and was negatively correlated with pondwater NH4+-N concentrations and natural abundance of 15N in the mats. ARA was restricted to the upper, oxic layer of the mats. Experiments conducted to ascribe ARA to different groups of prokaryotes suggested that ARA was mainly conducted by heterocystous cyanobacteria, since no activity was found in the dark and the activity was inhibited by the photosystem II inhibitor DCMU (3-[3,4-dichlorophenyl]-1,1-dimethyl urea). In spite of 24 h of daylight, nitrogenase activity showed a diel cycle with maximum activity at midday (10-18 h) and minimal activity at early morning (6-10 h) when pond temperatures were at their minima. Light dependency of nitrogenase activity for three cyanobacterial communities showed that the irradiance required for saturating ARA was low, in every case lower than 100 mmol photon m-2s-1. Irradiance rarely fell below 100 mmol photon m-2s-1 during Antarctic summer days and ARA was likely to be light saturated for much of the time. We estimate that N2 fixation represented on average a N input into the ponds of over 1 g m-2y-1. This value appears to be the highest N input to this Antarctic ecosystem.     

Effects of insulin and exercise on rat hindlimb muscles after simulated microgravity.

This study was designed to examine insulin- and exercise-stimulated glucose uptake and metabolism in the hindlimb muscles of rats after conditions of simulated microgravity. To simulate microgravity, male Sprague-Dawley rats were suspended in a head-down (45 degrees) position with their hindlimbs non-weight bearing (SUS) for 14 days. In addition, rats were assigned to suspension followed by exercise (SUS-E), to cage control (CC), or to exercising control (CC-E) groups. Exercise consisted of five 10-min bouts of treadmill running at the same relative intensity for the CC-E and SUS-E rats (80-90% of maximum O2 consumption). Hindlimb perfusion results indicated that glucose uptake for the entire hindquarter at 24,000 microU/ml insulin (maximum stimulation) was significantly higher in the SUS (8.9 +/- 0.5 mumol.g-1.h-1) than in the CC (7.6 +/- 0.4 mumol.g-1.h-1) rats, signifying an increased insulin responsiveness. Glucose uptake at 90 microU/ml insulin was also significantly higher in the SUS (48 +/- 4; % of maximum stimulation over basal) than in the CC (21 +/- 4%) rats. In addition, exercise-induced increases in glucose uptake for the hindlimbs (133%) and glucose incorporation into glycogen for the plantaris (8.4-fold), extensor digitorum longus (5.4-fold), and white gastrocnemius (4.8-fold) muscles were greater for the SUS-E rats than for the CC-E rats (39% and 1.9-, 1.9-, and 3.0-fold, respectively). Therefore, suspension of the rat with hindlimbs non-weight bearing leads to enhanced muscle responses to insulin and exercise when they were applied separately. However, insulin action appeared to be impaired after exercise for the SUS-E rats, especially for the soleus muscle.     

Variation of microcystins, cyanobacterial hepatotoxins, in Anabaena spp. as a function of growth stimuli.

Cyanobacterial hepatotoxins, microcystins, are specific inhibitors of serine/threonine protein phosphatases and potent tumor promoters. They have caused several poisonings of animals and also pose a health hazard for humans through the use of water for drinking and recreation. Different strains of the same cyanobacterial species may variously be nontoxic, be neurotoxic, or produce several microcystin variants. It is poorly understood how the amount of toxins varies in a single strain. This laboratory study shows the importance of external growth stimuli in regulating the levels and relative proportions of different microcystin variants in two strains of filamentous, nitrogen-fixing Anabaena spp. The concentration of the toxins in the cells increased with phosphorus. High temperatures (25 to 30 degrees C), together with the highest levels of light studied (test range, 2 to 100 mumol m-2 s-1), decreased their amount. Different structural variants of microcystins responded differently to growth stimuli. Variants of microcystin (MCYST)-LR correlated with temperatures below 25 degrees C, and those of MCYST-RR correlated with higher temperatures. Nitrogen added into the growth medium and increasing temperatures increased the proportion of microcystin variants demethylated in amino acid 3. All variants remained mostly intracellular. Time was the most important factor causing the release of the toxins into the growth medium. Time, nitrogen added into the growth medium, and light fluxes above 25 mumol m-2 s-1 significantly increased the concentrations of the dissolved toxins. According to the results, it thus seems that the reduction of phosphorus loads in bodies of water might play a role in preventing the health hazards that toxic cyanobacterial water blooms pose, not only by decreasing the cyanobacteria but also by decreasing their toxin content.     

Body temperature and oxygen uptake in the kinkajou (Potos flavus, Schreber), a nocturnal tropical carnivore.

Two kinkajous (Potos flavus, Procyonidae) showed marked nycthemeral variations in their rectal temperature. The mean Tr at night was 38.1 +/- 0.4 degrees C SD and 36.0 +/- 0.6 degrees C SD while resting during the day. Body temperature and O2-consumption were measured at ambient temperatures from 5-35 degrees C. With one exception at 35 degrees C, hypo- or hyperthermia was never observed. At air temperatures above 30 degrees C the bears reacted with behavioural responses. O2-consumption was minimal at Ta's from 23-30 degrees C. The mean basal metabolic rate was 0.316 ml O2 g-1 h-1 which is only 65% of the expected value according to the Kleiber formula. Below 23 degrees C heat production followed the equation : y (ml O2 g-1 h-1) = 0.727--0.018 Ta. The minimal thermal conductance was 90% of the predicted value according to the formula : C (ml O2 g-1 h-1 degrees C-1) = 1.02 W-0.505 (HERREID & KESSEL, 1967). Kinkajous are another distinct exception to the mouse to elephant curve.