鮸形态性状与体质量的关系

为了研究鮸的形态性状与体质量之间的关系,测量了524尾12月龄左右鮸的体质量(Y, g)和8个形态性状(cm),包括全长(X₁)、体长(X₂)、头长(X₃)、躯干长(X₄)、尾长(X₅)、尾柄长(X₆)、尾柄高(X₇)和体高(X₈).采用相关分析、回归分析、通径分析以及模型拟合等方法对其进行分析.结果表明: 鮸所有性状两两之间存在极显著正相关关系,相关系数在0.834～0.941.经共线性诊断排除了体长这一具有严重共线性的性状后,采用逐步引入-剔除法进行多元回归并进行显著性检验,成功筛选出全长(X₁)、躯干长(X₄)、尾柄高(X₇)和体高(X₈)4个统计检验极显著的形态性状,并建立多元回归方程:Y ＝-444.188 +7.943X₁ +12.861X₄ +38.254X₇ + 42.722X₈.通径分析结果显示,4个形态性状中,体高对体质量的直接作用最大(通径系数=0.351),全长次之(通径系数=0.335).对全长和体高与体质量之间的函数关系进行曲线模型拟合得出,在6个拟合模型中,幂函数模型拟合效果最好,方程为:y=0.013 x^2.891(全长); y=2.028 x^2.751(体高).经适合性检验得知,全长比体高通过幂函数对体质量的预测效果更好.研究结果可为鮸的形态性状在选择育种中的有效利用提供重要参考.     

不同产地姜黄属植物中姜黄素类成分及矿质元素分析

以福建泉州地区种植的12个姜黄(Curcuma longa)和莪术(Curcuma zedoaria)种质的成熟根茎为试材, 采用正交设计法优化姜黄素(CCM)、单脱甲氧基姜黄素(DMC)和双脱甲氧基姜黄素(BDMC)的提取工艺条件, 比较不同产地姜黄属种质的3种姜黄素类化合物和16种矿质元素的含量。结果表明, 姜黄素类化合物提取工艺为: 100%甲醇, 1:5 (g·mL^-1)固液比, 超声提取2分钟, 提取率达到最高值。CCM、DMC和BDMC的最大吸收波长分别为424、418及414 nm; 回归方程分别为Y=0.170 3X+0.024 3 (CCM), Y=0.173 8X+0.041 (DMC), Y=0.140 6X+0.051 4 (BDMC)。GY03种质中CCM、DMC和BDMC含量分别为1.23%、1.22%与1.50%, 总姜黄素类含量最高, 达3.95%; GY01种质的总姜黄素次之(为3.82%); GY03和GY01可在栽培地推广种植; 12个姜黄属种质的16种矿质元素中, 以Mg、Mn、Al、Fe和Zn含量较为丰富。     

不同产地姜黄属植物中姜黄素类成分及矿质元素分析

以福建泉州地区种植的12个姜黄(Curcuma longa)和莪术(Curcuma zedoaria)种质的成熟根茎为试材, 采用正交设计法优化姜黄素(CCM)、单脱甲氧基姜黄素(DMC)和双脱甲氧基姜黄素(BDMC)的提取工艺条件, 比较不同产地姜黄属种质的3种姜黄素类化合物和16种矿质元素的含量。结果表明, 姜黄素类化合物提取工艺为: 100%甲醇, 1:5 (g·mL^-1)固液比, 超声提取2分钟, 提取率达到最高值。CCM、DMC和BDMC的最大吸收波长分别为424、418及414 nm; 回归方程分别为Y=0.170 3X+0.024 3 (CCM), Y=0.173 8X+0.041 (DMC), Y=0.140 6X+0.051 4 (BDMC)。GY03种质中CCM、DMC和BDMC含量分别为1.23%、1.22%与1.50%, 总姜黄素类含量最高, 达3.95%; GY01种质的总姜黄素次之(为3.82%); GY03和GY01可在栽培地推广种植; 12个姜黄属种质的16种矿质元素中, 以Mg、Mn、Al、Fe和Zn含量较为丰富。     

外源亚精胺对盐碱胁迫下番茄幼苗根系线粒体功能的影响

为探讨外源亚精胺(Spd)对盐碱胁迫下番茄根系线粒体功能的影响,采用水培法,以耐性不同的两个番茄品种‘金棚朝冠’（耐盐型）和‘中杂9号’（敏感型）为试材,通过模拟盐碱生态条件(NaCl∶Na₂SO₄∶NaHCO₃∶Na₂CO₃=1∶9∶9∶1),结合叶面喷施外源0.25 mmol·L^-1Spd,研究盐碱胁迫8 d后Spd对番茄幼苗根系形态和根系线粒体功能的影响.结果表明： 盐碱胁迫下,两个品种番茄根系线粒体内H₂O₂和丙二醛（MDA）含量增加,线粒体膜通透性明显增大,流动性降低,膜电位、线粒体内细胞色素c/a(Cyt c/a)吸光度比值、膜H⁺-ATPase活性显著下降,使线粒体受到不同程度的损伤,从而抑制根系生长,且‘金棚朝冠’的上述指标变化幅度均小于‘中杂9号’.盐碱胁迫下,喷施外源Spd处理的两个品种根系线粒体H₂O₂和MDA含量显著降低,膜通透性减小、流动性增加,膜电位、线粒体内Cyt c/a吸光度比值、膜H⁺-ATPase活性显著提高,可有效缓解盐碱胁迫对番茄幼苗根系线粒体的伤害作用,且这种缓解作用在‘中杂9号’上的表现效果更佳.     

过量施氮对冬小麦生产力的影响

设置0、70、140、210和280 kg N·hm ^-2 5个施N梯度, 对冬小麦(Triticum aestivum)旗叶光合速率(A_leaf)、群体冠层光合速率(A_canopy)、作物生长速率(CGR)和籽粒产量(GY) 4个生产力水平进行综合观测研究, 结果发现: 在0-210 kg N·hm ^-2区间, A_leaf、A_canopy、CGR和GY都随施N量的增大而增大; 在施N量由210增加到280 kg N·hm ^-2时, GY没有显著变化, 而灌浆期A_leaf、开花期和灌浆期A_canopy、开花-成熟阶段CGR有显著减小。综合分析认为: 1)过量施N (280 kg N·hm ^-2)能显著降低灌浆期冬小麦A_leaf、A_canopy和CGR, 进而抑制GY; 2)过量施N对冬小麦光合生产力的抑制作用主要发生在灌浆期; 3)在A_leaf、A_canopy、CGR和GY 4个生产力指标中, A_canopy对过量施N的反应最敏感。     

吲哚乙酸对铝胁迫下栝楼生理响应及DNA损伤的缓解作用

为探究IAA(吲哚乙酸)对铝胁迫下栝楼生理响应及DNA损伤的缓解,本研究以河北安国栝楼(耐铝品种)和浙江浦阳栝楼(铝敏感品种)为材料进行水培试验,研究300、800 μmol·L^-1(分别用Al₃₀₀和Al₈₀₀表示)铝环境下不同浓度IAA(0、10、25、50、75 μmol·L^-1,分别以I₀、I₁₀、I₂₅、I₅₀和I₇₅表示)对2个栝楼品种的抗氧化酶活性、丙二醛(MDA)、光合特性、根系活力、叶绿素含量和DNA损伤的影响。结果表明: 与对照相比,铝胁迫条件下,安国和浦阳品种栝楼的超氧化物歧化酶(SOD)、过氧化物酶(POD)和过氧化氢酶(CAT)活性、光合作用能力、根系活力等生理指标受到不同程度的抑制,MDA含量明显升高,DNA损伤加重。铝胁迫条件下,与无IAA喷施相比,10～50 μmol·L^-1IAA作用下安国和浦阳栝楼的SOD、CAT和POD酶活性最大增幅分别为15.0%、31.2%、72.3%和13.8%、26.9%、26.4%,叶绿素含量显著增加49.9%和17.9%,MDA积累量减少39.2%和22.4%,荧光参数得到明显改善。25 μmol·L^-1IAA使安国和浦阳栝楼根系活力显著增加159.1%和90.9%,50 μmol·L^-1IAA可有效减缓2个品种栝楼根系DNA拖尾现象,尾部 DNA 百分含量与尾部距离的乘积(OTM)值最大降幅可达27.6%。10～50 μmol·L^-1 IAA能有效提升铝胁迫下栝楼的生理活性,减缓DNA损伤程度,且安国品种的耐铝胁迫能力大于浦阳品种。     

吉林省长白山区胡桃楸天然次生混交林立地指数模型

依据吉林省长白山胡桃楸天然次生混交林12个典型区域的坡向、坡位分布,结合胡桃楸龄级,布设样地109块,以年龄-树高数据为材料,编制了吉林省东部山区胡桃楸天然次生混交林立地指数表.结果表明: 应用3倍树高标准差法剔除异常数据,最终得到80块379对胡桃楸不同龄级的年龄与树高数据,运用7个数学模型进行比较,确定了单形立地指数导向曲线方程式: H=28.0181(1-e^-0.0341A)^1.0503,决定系数R²为0.85,残差平方和为0.89,基准年龄为50年,指数级距为2 m,得到了16～28 m的7条立地指数曲线.根据不同立地类型,建立了多形立地指数模型,幂函数拟合效果较好,即H=B₀t^B1,其中B₀=10^-9e^0.9213SI,B₁=-0.2139SI+5.6183,最终得到了多形立地指数模型方程式H=10^-9e^0.9213SIt^{-0.2139SI+5.6183}.指数级差法和落点检验法对2种立地指数模型的精度检验表明,多形立地指数的精确度较高,能够准确地反映胡桃楸不同立地类型间树高生长的差异,可用于吉林省长白山区胡桃楸天然次生混交林立地质量评价.     

基于光合系统参数建立马铃薯耐荫性综合评价体系

为构建便捷的马铃薯(Solanum tuberosum)耐荫性综合评价体系并发掘耐荫种质, 以35个马铃薯品种(系)为实验材料, 测定块茎膨大期遮荫下植株叶片叶绿素含量、光合能力和叶绿素荧光等光合参数及收获后块茎单株产量和淀粉含量等指标。根据耐荫系数, 利用主成分分析法、隶属函数法、聚类分析法和逐步回归分析法进行综合评价。通过主成分分析将马铃薯耐荫性相关的13个单项光合指标转换为6个综合指标, 代表了全部信息的87.51%。以此计算各种质的隶属函数值, 并以主成分的贡献率进行加权, 最终获得所用材料耐荫性的综合评价值(D值)。根据D值聚类分析结果将35个马铃薯分为4类, 其中Eshu10和Lishu6分别为耐荫性最强和最弱的品种。通过逐步回归分析建立了马铃薯耐荫性评价数学模型: D=0.060+0.106G_s+0.214qP+0.143NPQ。同时, 用该评价体系鉴定为耐荫性强的品种(系)在遮荫后其产量和/或淀粉含量等指标减幅均低于耐荫性弱的种质, 表明该评价体系可用于快速评价和预测马铃薯种质的耐荫性。     

基于光合系统参数建立马铃薯耐荫性综合评价体系

为构建便捷的马铃薯(Solanum tuberosum)耐荫性综合评价体系并发掘耐荫种质, 以35个马铃薯品种(系)为实验材料, 测定块茎膨大期遮荫下植株叶片叶绿素含量、光合能力和叶绿素荧光等光合参数及收获后块茎单株产量和淀粉含量等指标。根据耐荫系数, 利用主成分分析法、隶属函数法、聚类分析法和逐步回归分析法进行综合评价。通过主成分分析将马铃薯耐荫性相关的13个单项光合指标转换为6个综合指标, 代表了全部信息的87.51%。以此计算各种质的隶属函数值, 并以主成分的贡献率进行加权, 最终获得所用材料耐荫性的综合评价值(D值)。根据D值聚类分析结果将35个马铃薯分为4类, 其中Eshu10和Lishu6分别为耐荫性最强和最弱的品种。通过逐步回归分析建立了马铃薯耐荫性评价数学模型: D=0.060+0.106G_s+0.214qP+0.143NPQ。同时, 用该评价体系鉴定为耐荫性强的品种(系)在遮荫后其产量和/或淀粉含量等指标减幅均低于耐荫性弱的种质, 表明该评价体系可用于快速评价和预测马铃薯种质的耐荫性。     

植物气孔导度对CO2响应模型的构建

构建一个普适性的植物叶片气孔导度(g_s)对CO₂浓度响应(g_s-C_a)的模型, 对定量研究植物叶片g_s对CO₂浓度的响应变化尤为必要。该研究运用便携式光合仪(LI-6400)测量了大豆(Glycine max)和小麦(Triticum aestivum)光合作用对CO₂的响应曲线(A_n-C_a), 在比较传统的Michaelis-Menten模型(M-M模型)和叶子飘构建的CO₂响应模型拟合大豆和小麦A_n-C_a效果的基础上, 构建了g_s-C_a响应新模型。然后用新构建的模型拟合大豆和小麦的g_s-C_a曲线, 并将拟合结果与传统模型的拟合结果, 以及与其对应的观测数据进行比较, 以判断所构建模型是否合理。结果显示: 叶子飘构建的A_n-C_a模型可较好地拟合大豆和小麦的A_n-C_a曲线, 确定系数(R²)均高达0.999。M-M模型拟合大豆和小麦的A_n-C_a曲线时的R²虽然也较高, 但在较高CO₂浓度时的拟合曲线偏离观测曲线。因此, 基于叶子飘的A_n-C_a模型构建g_s-C_a模型更为可行。新构建的g_s-C_a模型可较好地拟合大豆和小麦的g_s-C_a曲线, R²分别为0.995和0.994, 而且还可以直接给出最大气孔导度(g_s-max)、最小气孔导度(g_s-min), 以及与g_s-min相对应的CO₂浓度值(C_s-min)。拟合得到大豆和小麦的g_s-max分别为0.686和0.481 mol·m^-2·s^-1, 与其对应的观测值(分别为0.666和0.471 mol·m^-2·s^-1)之间均不存在显著差异; 同样, 拟合得到的大豆和小麦的g_s-min分别为0.271和0.297 mol·m^-2·s^-1, 与其对应的观测值(分别为0.279和0.293 mol·m^-2·s^-1)之间也均不存在显著差异; 此外, 新构建的g_s-C_a模型给出大豆和小麦的C_s-min值分别为741.45和1 112.43 μmol·mol ^-1, 与其对应的观测值(732.78和1 200.34 μmol·mol ^-1)也不存在显著差异。由此可见, 该研究新构建的g_s-C_a模型可作为定量研究植物叶片气孔导度对CO₂浓度变化的有效数学工具。     

镉胁迫对吊兰及银边吊兰生长及镉富集特性的影响

选择吊兰和银边吊兰为试验材料,采用水培法研究其在不同Cd²⁺处理浓度(0、20、80、200 μmol·L^-1)下生长及生理特性的变化。结果表明: 20 μmol·L^-1镉对两种吊兰的影响较小,单叶面积、总叶面积、叶绿素(Chl)a含量、总叶绿素[Chl (a+b)]含量、类胡萝卜素含量、Chl a/Chl b值、胞间二氧化碳浓度(C_i)和蒸腾速率(T_r)与对照(CK)基本无显著差异;80 μmol·L^-1镉胁迫下两种吊兰叶片初始荧光(F_o)和非光化学淬灭系数(NPQ)升至最高水平;200 μmol·L^-1镉胁迫下,两种吊兰生物量、叶绿素含量、最大净光合速率(P_n)、气孔导度(g_s)、最大光化学量子产量(F_v/F_m)、实际光化学量子产量Y_(II)、转移系数(TF)以及各部分生物量均降至最低水平,而两种吊兰的过氧化物酶(POD)、抗坏血酸过氧化物酶(APX)及过氧化氢酶(CAT)活性和银边吊兰的丙二醛(MDA)含量均有不同程度的增加。随着镉处理浓度的增加,两种吊兰各器官Cd含量持续升高,且主要富集在根部;吊兰各器官Cd含量及富集系数(BCF)在胁迫处理下均高于银边吊兰。研究表明,两种吊兰对镉具有一定的耐性,其中吊兰对Cd的耐受能力强于银边吊兰,可考虑作为绿化植物用于修复镉污染水体或土壤。     

Variations and interrelationships of foliar hydraulic and photosynthetic traits for Larix gmelinii

Aims Variations and potential trade-offs of leaf hydraulic and photosynthetic traits are essential for assessing and predicting the effect of climate change on tree survival, growth and distribution. Our aims were to examine variations and interrelationships of leaf hydraulic and photosynthetic traits in response to changes in site conditions for Dahurian larch (Larix gmelinii)—a dominant tree species in Chinese boreal forests.Methods This study was conducted at the Maoershan Forest Ecosystem Research Station. A transect of 27 year-old Dahurian larch plantation was established that consisted of five plots extending from the valley to the ridge of a slope. The predawn leaf water potential (Ψ_pre), area- and mass-based leaf hydraulic conductance (K_area and K_mass, respectively), resistance to embolism capacity (P₅₀), leaf mass per area (LMA), net photosynthetic rate (A), and leaf nitrogen content (N) were measured in August 2016.Important findings The Ψ_pre, K_area, K_mass, P₅₀, A, LMA, and N all varied significantly among the plots (p < 0.05), indicating significant intra-specific variations in these traits in response to the changes in site conditions. The P₅₀ was significantly (p < 0.05) correlated with Ψ_pre, K_area or K_mass, suggesting that a trade-off between hydraulic efficiency and safety exist within the species to some degree. There were significant (p < 0.05) pairwise correlations between A, LMA, and N. Nevertheless, there was no significant (p < 0.05) correlation between the measured photosynthetic traits and hydraulic traits. We concluded that the intra-specific variations and multiple interrelationships of the leaf hydraulic and photosynthetic traits for the larch reflect the plasticity of its leaf traits and strategies of its survival and growth as a result of its acclimation to diverse site conditions.     

太行山南麓栓皮栎和刺槐光合作用-CO2响应模拟

采用便携式光合仪(Li-6400XT)对太行山南麓栓皮栎、刺槐2个树种叶片光合作用-CO₂响应曲线进行测定,利用直角双曲线模型(RH)、非直角双曲线模型(NRH)以及直角双曲线的修正模型—叶子飘模型(YZP)进行曲线拟合,并对3种光合模型的拟合参数(最大净光合能力A_max、初始羧化速率η、光呼吸速率R_p、CO₂补偿点CCP和CO₂饱和点CSP)进行比较.结果表明: 与NRH和YZP模型相比,RH模型所得的A_max、η、R_p和CCP较高,分别高出实测值59.8%、128.6%、133.4%和19.8%.与RH模型和YZP模型相比,NRH模型拟合得出的A_max较大,高于实测值11.1%,η、R_p和CCP接近于实测值.YZP模型能较好地模拟光合作用对CO₂的饱和现象,在A_max和CSP的拟合效果上较好.栓皮栎阴叶的A_max、R_p和CCP比阳叶分别低31.3%、5.2%和14.3%.刺槐阴叶的A_max、R_p和CCP分别高出阳叶23.5%、11.0%和5.4%.栓皮栎、刺槐阴叶的η分别比阳叶高6.9%和7.0%.刺槐叶片的R_p和CCP与温度、光强均具有显著线性关系,η与气孔导度(g_s)具有显著线性关系.栓皮栎叶片的η与光强和气孔导度具有显著线性关系,CCP主要受温度和湿度影响.栓皮栎叶片的A_max与相对湿度和g_s具有显著的正线性相关关系.     

太行山南麓栓皮栎和刺槐光合作用-CO2响应模拟

采用便携式光合仪(Li-6400XT)对太行山南麓栓皮栎、刺槐2个树种叶片光合作用-CO₂响应曲线进行测定,利用直角双曲线模型(RH)、非直角双曲线模型(NRH)以及直角双曲线的修正模型—叶子飘模型(YZP)进行曲线拟合,并对3种光合模型的拟合参数(最大净光合能力A_max、初始羧化速率η、光呼吸速率R_p、CO₂补偿点CCP和CO₂饱和点CSP)进行比较.结果表明: 与NRH和YZP模型相比,RH模型所得的A_max、η、R_p和CCP较高,分别高出实测值59.8%、128.6%、133.4%和19.8%.与RH模型和YZP模型相比,NRH模型拟合得出的A_max较大,高于实测值11.1%,η、R_p和CCP接近于实测值.YZP模型能较好地模拟光合作用对CO₂的饱和现象,在A_max和CSP的拟合效果上较好.栓皮栎阴叶的A_max、R_p和CCP比阳叶分别低31.3%、5.2%和14.3%.刺槐阴叶的A_max、R_p和CCP分别高出阳叶23.5%、11.0%和5.4%.栓皮栎、刺槐阴叶的η分别比阳叶高6.9%和7.0%.刺槐叶片的R_p和CCP与温度、光强均具有显著线性关系,η与气孔导度(g_s)具有显著线性关系.栓皮栎叶片的η与光强和气孔导度具有显著线性关系,CCP主要受温度和湿度影响.栓皮栎叶片的A_max与相对湿度和g_s具有显著的正线性相关关系.     

Optimization of calcium pectinate gel beads for sustained-release of catechin using response surface methodology

Response surface methodology was used to optimize bead preparation conditions, including CaCl₂ concentration (X₁), hydroxypropylmethylcellulose concentration (X₂), and bead-hardening time (X₃), for the sustained-release of catechin from the calcium pectinate gel beads reinforced with liposomes and hydroxypropylmethylcellulose into simulated gastric fluid (SGF) and intestinal fluid (SIF). The optimized values of X₁, X₂, and X₃ were found to be 5.82%, 0.08%, and 10.29 min, respectively. The beads prepared according to the optimized conditions released only about half of the entrapped catechin into SGF while most of the entrapped catechin was released into SIF after 24 h incubation.     

Leaf gas exchange, chlorophyll fluorescence and growth responses of Genipa americana seedlings to soil flooding

Effects of soil flooding on photosynthesis and growth of Genipa americana L. seedlings, a neotropical fruit-tree species used in gallery forest restoration programs, were studied under glasshouse conditions. Despite the high survival rate and wide distribution in flood-prone habitats of the neotropics, previous studies demonstrated that growth of G. americana is reduced under soil flooding. Using leaf gas exchange and chlorophyll fluorescence measurements, we tested the hypothesis that stomatal limitation of photosynthesis is the main factor that reduces carbon uptake and growth rates of G. americana seedlings. Throughout a 63-day flooding period, the survival rates were 100%. The maximum values of the net photosynthetic rate (A) and stomatal conductance to water vapor (g_s) of control seedlings were 9.86 μmol CO₂ m⁻² s⁻¹ and 0.525 mol H₂O m⁻² s⁻¹, respectively. The earliest effects of flooding were significant decreases in g_s and A, development of hypertrophied lenticels and decrease in the dry weight of roots. A strong effect of the leaf-to-air vapor pressure deficit (LAVPD) on g_s and A were observed that was enhanced under flooded conditions. Between 14 and 63 days after flooding, significant reductions in g_s (31.7% of control) and A (52.9% of control) were observed followed by significant increments in non-photochemical quenching (q_N) (187.5% of control). During the same period, there were no differences among treatments for the ratio between variable to initial fluorescence (F_v/F₀), the maximum quantum efficiency of the photosystem II (F_v/F_m) and photochemical quenching (q_P), indicating that there was no damage to the photosynthetic apparatus. Based on the results, we conclude that decreases in stomatal opening and stomatal limitation of photosynthesis, followed by decrease in individual leaf area are the main causes of reductions in carbon uptake and whole plant biomass of flooded seedlings.     

Stress relaxation function of bone and bone collagen

Relaxation Young's and shear moduli of bovine bone and bone collagen were investigated. It was found that each relaxation process observed had two stages, which were referred to as process I and process II in order of time. Process II was described by a simple exponential decay while process I was not. The Kohlrausch-Williams-Watts (KWW) function, ψ(t) = exp[t/τ₁)^B] (0 < B < 1), was found to be suitable to describe process I. The normalized relaxation modulus, M_r(t), was expressed by the combination of the simple exponential type relaxation function and the KWW function

M_r=A₁exp[−(t/τ₁)^B]+A₂exp[(t/τ₁)](0<B1)

On the basis of this equation, the relaxation mechanism in bone and bone collagen was identified. According to the model proposed for the KWW relaxation function, the stress relaxation process in bone was considered to be governed by viscoelastic properties of matrix collagen fiber. The model for the KWW relaxation function requires the disordered glassy structure of collagen fiber, which is consistent with the results of the structural investigations.     

Application of Freundlich and Langmuir models to multistage purification process to remove heavy metal ions by using Schizomeris leibleinii

The adsorption of iron(III), lead(II) and cadmium(II) ions onto Schizomeris leibleinii, a green alga, was studied with respect to initial pH, temperature, initial metal ion and biomass concentration to determine the optimum adsorption conditions. Optimum initial pH for iron(III), lead(II) and cadmium(II) ions were 2.5, 4.5 and 5.0 at optimum temperature 30°C, respectively. The initial adsorption rates increased with increasing initial iron(III), lead(II) and cadmium(II) ion concentrations up to 100, 100 and 150 mg l⁻¹, respectively. The Freundlich and Langmuir adsorption isotherms were developed at various initial pH and temperature values. The adsorption of these metal ions to S. leibleinii was investigated in a two-stage mixed batch reactor. The residual metal ion concentrations (C_eq) at equilibrium at each stage for a given ‘quantity of dried algae (X₀)/volume of solution containing heavy metal ion (V₀)’ ratio were calculated using Freundlich and Langmuir isotherm constants. The experimental biosorption equilibrium data for iron(III), lead(II) and cadmium(II) ions were in good agreement with those calculated by both Freundlich and Langmuir models. The adsorbed iron(III), lead(II) and cadmium(II) ion concentrations increased with increasing X₀/V₀ ratios while the adsorbed metal quantities per unit mass of dried algae decreased.     

四种常见树木叶片光合模型关键参数对臭氧浓度升高的响应

随着城市化进程的加快, 臭氧(O₃)已经成为中国夏季首要大气污染物。已有研究表明O₃通过气孔进入叶片显著抑制光合作用, 影响陆地生态系统碳水循环过程。但是O₃浓度升高对植物光合和气孔导度模型关键参数影响的研究仍然缺乏。该研究利用开顶式气室, 设置两个O₃处理(CF, 过滤空气; E-O₃, 未过滤空气+ 60 nmol·mol^-1 O₃), 选用4种常见的树木(茶(Camellia sinensis)、复叶槭(Acer negundo)、栾树(Koelreuteria paniculata)和蒙古栎(Quercus mongolica)), 通过测定叶片气体交换参数, 探究O₃浓度升高对植物光合和气孔导度模型关键参数的影响。结果表明: O₃浓度升高显著降低了4种植物的饱和光合速率和光合生化模型参数叶肉导度, 但是O₃对光合生化模型参数最大羧化速率和最大电子传递速率的负效应在不同树种间存在差异。此外, 不同植物气孔导度对O₃的响应也存在差异。通过对最优化气孔导度模型进行参数化, 结果表明O₃显著提高了蒙古栎和复叶槭的斜率参数(g₁), 并显著增加了茶的气孔导度模型截距参数(g₀), 但降低了复叶槭的g₀。在不同O₃处理下4种树木的内源水分利用效率与g₁呈显著线性负相关关系。综上所述, O₃浓度升高显著影响光合生化和气孔导度模型关键参数。