盐度、碱度对浮游生物和水化因子的影响

于 1998年 7～ 8月间在山东省高青县赵店乡大芦湖养殖场选取一口盐碱池塘的池水为实验用水 ,用粗盐和碳酸氢钠调节盐度和碱度 ,以研究盐碱池塘在盐度和碱度升高的情况下其化学、生物因子的变化趋势 .结果表明 ,盐碱池塘中重碳酸盐碱度的升高会在短时间内降低水体 pH值、钙离子浓度和COD ;但碱度为 6.64± 0 .40mmol·L-1～ 13 .47± 0 .3 1mmol·L-1对浮游生物不会产生显著的不良影响 .盐度为 2 .10± 0 .2 2 g·L-1～11.2 9± 0 .99g·L-1会引起浮游生物生物量的降低 ,并减少浮游生物的种类 ,降低其多样性指数 ,影响浮游生物群落结构组成     

盐度对新吉富罗非鱼受精卵孵化和仔稚鱼活力的影响

研究了盐度梯度对新吉富罗非鱼(Oreochromis niloticus)受精卵孵化和仔鱼活力的影响。水温(28±0.5)℃下,观察比较了8个梯度的盐度(3‰、6‰、9‰、12‰、15‰、18‰、21‰、24‰)及纯净淡水(盐度为0)条件下,新吉富罗非鱼受精卵的孵化时间、孵化周期、孵化率和畸形率。同时在不同盐度条件下对4批初孵仔鱼进行耐饥饿实验,测定其不投饵存活系数(SAI)值。结果表明,新吉富罗非鱼受精卵在盐度6‰～15‰时,孵化率较高(89.0%～92.7%);盐度低于3‰和高于18‰时,孵化率较低。仔鱼生存适宜盐度3‰～15‰,最适盐度6‰～9‰。新吉富罗非鱼仔鱼在盐度0～3‰及18‰～24‰时,仔鱼的SAI值较低,不适宜仔鱼培育;盐度为6‰～15‰时,仔鱼的活力较高。仔鱼的SAI值与受精卵的孵化率呈正相关关系。     

聚苯乙烯微塑料暴露对稀有■鲫仔鱼生长的影响

微塑料已经成为一种新型的污染物,关于微塑料本身所造成毒性效应的研究较少。本研究以稀有■鲫Gobiocypris rarus初孵仔鱼为受试对象,研究了不同粒径(0.1μm、1μm、10μm)、不同浓度(0.055μg·L^-1、0.55μg·L^-1、5.5μg·L^-1、55μg·L^-1、550μg·L^-1)的聚苯乙烯(PS)微塑料对稀有■鲫仔鱼存活、生长的影响以及微塑料在仔鱼体内的累积和清除情况。暴露7 d后,各暴露组仔鱼的存活率和全长与空白对照组间的差异均无统计学意义(P>0.05);各暴露组仔鱼的鳃、消化道内均发现荧光微塑料,荧光强度随微塑料浓度增高而增强;经过7 d净化后,仔鱼体内PS微塑料均显著减少(P<0.05)。本研究表明,环境浓度水平的PS微塑料虽可在稀有■鲫体内积累,但清除速度也较快,在个体可观察水平上未见明显的毒性效应。     

碱度和pH对西藏拟溞存活、生长和生殖的影响

在温度为16±0.5℃和盐度15.5±0.5的条件下,研究了碱度和pH对西藏拟溞（Daphniopsis tibetanaSars）存活、生长和生殖的影响。结果表明,西藏拟溞的24h半致死pH为4.18和10.84;48h半致死pH为4.37和10.71;24h和48h半致死碱度分别为529.43mmol/L和503.69mmol/L。西藏拟在培养液的pH7—8时,生长率和存活率显著高于其他各组。pH7时,西藏拟溞的内禀增长率最大,为0.3014/d。pH8时次之,为0.2924/d。西藏拟溞在各碱度组中的生长率和存活率差异不显著。碱度为11.9mmol/L时,西藏拟溞产幼前发育期最短,为18.70±0.65d。在碱度11.9和18.9mmol/L时,其产卵率为1.1671和1.1877,高于其他各组。西藏拟溞在碱度为7.54mmol/L组中的rm最高,为0.3425/d,其他各组的rm在0.2889—0.3276/d之间。西藏拟溞生存的最适pH为7—8,最适碱度为4.75—18.9mmol/L。     

葡萄糖、维生素C对普安银鲫卵黄囊仔鱼发育中LPL和HL活性的影响

通过设置不同浓度的葡萄糖溶液和维生素C溶液分别添加到普安银鲫的孵化水体中, 直至卵黄囊消失完全, 探究葡萄糖和维生素C溶液分别浸泡对普安银鲫(Carassius auratus gibelio)卵黄囊仔鱼发育中脂蛋白脂酶(LPL)和肝脂酶(HL)活性的影响. 葡萄糖浓度为0、5、10、15和20 g/L; 维生素C浓度为0、20、25、30和35 mg/L, 记录孵化时间、孵化率及仔鱼成活率, 并测定了最适葡萄糖浓度组、维生素C浓度组与对照组中普安银鲫卵黄囊仔鱼发育中LPL和HL活性. 结果显示: 普安银鲫卵黄囊仔鱼发育中对照组与维生素C组LPL比活力与全活力呈下降-上升的变化趋势, HL比活力与全活力均呈上升趋势. 葡萄糖组LPL和HL比活力与全活力呈上升趋势, 在混合营养期与外源营养期, LPL和HL比活力与全活力显著高于对照组(P0.05), 而维生素C组LPL和HL比活力与全活力仅稍高于对照组, 但HL全活力在内源营养期显著高于对照组(P0.05). 研究表明: 适宜水平的葡萄糖溶液可通过调节脂类代谢酶的活性来维持机体内脂质代谢的动态平衡, 同时适宜水平的维生素C溶液能促进脂质代谢.       

温度、pH和盐度对后背鲈鲤幼鱼存活的影响

为了研究后背鲈鲤(Percocypris pingi retrodorslis)对温度、pH和盐度的耐受性, 以后背鲈鲤幼鱼为实验材料, 采用单因子静态急性毒性实验法对其温度、pH和盐度耐受能力进行研究。实验结果表明, 后背鲈鲤幼鱼对温度的耐受范围为0—32℃, 高温、低温的半致死温度分别为32℃和1℃, 最佳生长温度为8—27℃; 96h内, 最佳生长pH为5.0—9.0, pH高于9.5或者低于4.7时, 幼鱼出现死亡, 在24、48、72、96h里, 不同碱度对幼鱼存活率的影响呈现显著性差异(P<0.05), 而不同酸度对幼鱼存活率的影响差异性不显著(P>0.05), 24、48、72、96h酸度半致死浓度(LC₅₀)相应pH分别为3.90、3.96、4.15、4.40, 碱度半致死浓度相应的pH分别为11.20、11.10、10.98、10.89。96h内, 当盐浓度超过7.50 g/L时, 幼鱼开始死亡, 不同盐浓度对幼鱼的存活率的影响呈现显著性差异(P<0.05), 盐度对实验鱼的 12、24、48、72、96h的半致死浓度分别为10.30、9.25、9.00、8.85、8.82 g/L, 2个级别的安全浓度(SC)分别为0.882 g/L、2.557 g/L。后背鲈鲤已被列入珍稀濒危物种, 研究为今后后背鲈鲤的人工养殖和跨地域养殖打下理论基础。     

不同开口饵料对西伯利亚鲟仔鱼生长、存活和体成分的影响

分别采用水丝蚓（Limnodrilus sp.）、卤虫无节幼体（Artemia nauplii）、枝角类（Moina sp.）和人工饲料饲养西伯利亚鲟仔鱼30 d,研究不同开口饵料对西伯利亚鲟仔鱼生长、存活率和体成分的影响.结果表明：卤虫无节幼体为西伯利亚鲟最适开口饵料,仔鱼的存活率最高（96.67%）; 投喂水丝蚓组生长速度最快;而人工饲料组生长速度明显低于其他组,且成活率最低.不同开口饵料组间仔鱼体成分差异显著,人工饲料组水分含量最高,且粗蛋白和粗灰分含量最低.采用卤虫无节幼体为西伯利亚鲟仔鱼开口饵料,然后采用水丝蚓进行强化培育,能获得较好的生长速度和存活率.     

延迟投饵对史氏鲟仔鱼摄食、存活及生长的影响

为了解史氏鲟仔鱼阶段的开口摄食习性,为史氏鲟的人工育苗提供基础资料,研究了延迟投饵对史氏鲟仔鱼摄食、存活及生长的影响。结果表明:仔鱼6日龄开口,7日龄史氏鲟仔鱼初次摄食,10日龄卵黄基本吸收完毕,16~17日龄,不能建立外源性营养的仔鱼进入饥饿的不可逆点(PNR)期,故其PNR是16日龄;史氏鲟仔鱼存活率随延迟投饵天数的增加而降低,6日龄后,延迟投饵时间在7d内,仔鱼存活率可达60%以上,延迟投饵时间在8~10d内,仔鱼的成活率下降至40%左右,延迟投饵时间为11d,存活率下降至10%,延迟投饵时间为12d及以后,存活率为0;史氏鲟仔鱼全长和体质量在延迟投饵4d内均增加;延迟投饵超过4d则均下降。延迟投喂时间在8d以内,仔鱼全长和体质量与对照组无显著性差异;延迟投喂超过9d,全长和体质量低于对照组;史氏鲟仔鱼适宜投饵的时间是孵出后9~10d。     

葡萄糖和维生素C对普安银鲫卵黄囊仔鱼ACC、FAS及CPTⅠ活性的影响

本试验旨在探究普安银鲫(Carassius auratus )卵黄囊仔鱼发育过程中ACC、FAS及CPT I活性变化及葡萄糖和维生素C溶液分别浸泡对它们的影响。采用酶学方法研究了普安银鲫卵黄囊仔鱼过程中ACC、FAS及CPT I活性变化的变化特点。结果显示：在卵黄囊仔鱼发育过程中,对照组与维生素C组中ACC和FAS活性呈上升趋势,CPT I活性呈“下降-上升”变化趋势,而葡萄糖组ACC、FAS及CPT I活性均呈上升趋势,且3种酶的活性均显著高于对照组(P<0.05)。维生素C组ACC活性在内源营养期显著高于对照组,FAS活性在混合营养期和外源营养期显著高于对照组,CPT I活性在内源营养期和外源营养期显著高于对照组(P<0.05)。研究表明：ACC、FAS及CPT I在维持普安银鲫卵黄囊仔鱼发育中脂质代谢的动态平衡起着重要作用,15g/L的葡萄糖溶液可通过调节仔鱼体内脂质代谢酶的活性而形成新的脂质代谢水平,以满足仔鱼生长发育需要;而30mg/L的维生素C对维持仔鱼发育中体内正常的脂质代谢具有重要作用。     

低温胁迫对意大利蜜蜂受精卵的孵化率和发育历期的影响

蜜蜂是典型的模式昆虫,也是重要的经济昆虫,温度对其发育有着重要的影响。本文研究了低温20℃处理不同时长对意大利蜜蜂Apis mellifera ligustica 0-66 h受精卵的影响。结果表明:低温处理导致意大利蜜蜂受精卵的孵化率下降,发育历期显著延长。低温对蜜蜂受精卵孵化率影响程度与卵龄关系较大。0-9 h卵龄对低温敏感,其次是12-24 h卵龄,36 h以上卵龄后则较耐低温。0-66 h的卵受低温影响后发育历期延长平均值与低温胁迫时间呈显著的线性正相关。低温对蜜蜂卵发育有影响,在蜜蜂饲养管理的早春增长阶段,需要加强蜂群的保温。     

The combined effects of temperature and salinity on hatching success and the survival,growth, and development of the larval stages of Metapenaeus bennettae (Racek & Dall)

During the spawning season of the estuarine prawn Metapenaeus bennettae (Racek & Dall), laboratory and field experiments were conducted to examine the combined effects of temperature and salinity on hatching success of eggs and the survival, growth and development of larvae. Response surface analysis showed that optimal levels of temperature and salinity for maximum hatching success varied depending on conditions during spawning. Similarly, temperature and salinity conditions that produced maximum survival and growth of larvae depended on conditions during rearing prior to experimental temperature/salinity treatments. At the onset of feeding, larvae showed the lowest tolerance to changes in temperature and salinity. Supplementary feeding experiments in the laboratory, and survival rates in field experiments indicated that starvation was a more potent factor than the effects of temperature and salinity in determining survival through the protozoeal larval stages. Late larval stages were relatively indifferent to the effects of temperature and salinity. It is suggested that, during early development, adaptive response to the prevailing physical conditions enhances survival in an estuarine environment.     

Effects of combined NaCl and CaCl2 salinity on photosynthetic parameters of barley grown in nutrient solution

The changes caused by NaCl− and CaCl₂-induced salinity on several leaf parameters have been measured in two cultivars of barley ( Hordeum vulgare L.) growing in a growth chamber in nutrient solution. Salinity was induced by adding to the nutrient solution equal weights of NaCl and CaCl₂, to obtain conductivities of 2, 6, 12, 19 and 26 dS m⁻¹. Salinity induced decreases in the leaf water potential and in the osmotic potential. Salinity did not induce significant changes in the relative photosynthetic pigment composition of barley leaves, the photosynthetic pigment stoichiometry for neoxanthin:violaxanthin cycle pigments:lutein:β-carotene:Chl b :Chl a being close to 3:6:14:12:25:100 (mol:mol). Salinity per se did not induce interconversions in the carotenoids within the violaxanthin cycle in most barley leaves. The PSII photochemistry of most barley leaves was unchanged by salinity. However, some apparently healthy leaves growing in high salinity exhibited sudden decreases in PSII photochemistry and increases in zeaxanthin (at the expense of violaxanthin), that preceded rapid leaf drying. Salinity induced significant changes in the slow part of the chlorophyll fluorescence induction curve from barley leaves.     

Identification of NaCl and NaHCO3 stress responsive proteins in tomato roots using iTRAQ-based analysis

Soil salinity and alkalinity are common constraints to crop productivity in low rainfall regions of the world. However, the physiological difference of plant response to these two stresses was short of deep investigation. This study has identified a set of differentially expressed proteins of tomato root exploring to NaCl and NaHCO₃ stress by iTRAQ (isobaric tags for relative and absolute quantitation) assay. A total of 313 proteins responsive to NaCl and NaHCO₃ were observed. Among these proteins, 70 and 114 proteins were up-regulated by salt and alkali stress, respectively. While down-regulated proteins were 80 in salt treatment and 83 in alkali treatment. Only 39 up-regulated proteins and 30 down-regulated proteins were shared by salt and alkali stresses. The majority of the down-regulated proteins accounted for metabolism and energy conversion, and the up-regulated proteins were involved in signaling or transport. Compared with salt stress, alkali stress down-regulated proteins related with the respiratory metabolism, fatty acid oxidative metabolism and nitrogenous metabolism of tomato roots, and up-regulated protein with the reactive oxygen species (ROS) scavenging and ion transport. This study provides a novel insight into tomato roots response to salt and alkali stress at a large translation level.     

Effects of salinity on larval and early juvenile growth of an extremely euryhaline crab species,Armases miersii (Decapoda: Grapsidae)

The neotropical crab Armases miersii (Rathbun, 1897) breeds in supratidal rock pools, where great salinity variations occur. In laboratory experiments, all larval stages and the first juveniles were reared at six different salinities (5–55 PSU, intervals of 10 PSU). In five series of experiments, exposure to these conditions began either from hatching (Zoea I) or from the onset of successively later stages (Zoea II, III, Megalopa, Crab I). Growth was measured in terms of dry weight, carbon, nitrogen and hydrogen content. At osmotically extreme conditions (5 and 55 PSU, resp.), all stages showed minimum biomass accumulation; this was consistent with maximum mortality and longest duration of development (data presented in a separate paper). Successively later exposure to these salinities tended to reduce these effects. Lowest mortality and shortest time of development occurred generally at 15–25 PSU, indicating an optimum at moderately reduced salinities. This response pattern, however, was not congruent with that observed in growth. Biomass accumulation was initially maximum within a wide range of salinities (15–45 PSU), but in the Zoea II and III stages, this range tended to narrow and to shift towards higher salinities (35–45 PSU). These trends reversed in the Megalopa and Crab I, where maximum growth occurred again in a wider range and at lower salinities (15–35 PSU). The reduction of zoeal growth in moderately dilute media (15–25 PSU), which were optimal for survival and development, is interpreted as an energetic cost of hyper-osmoregulation, which begins already at hatching. Five PSU caused hypo-osmotic stress, exceeding in the long term the larval capacity for hyper-regulation. Poor zoeal survival and growth at 55 PSU are interpreted as effects of hyper-osmotic stress. In the Megalopa and Crab I, reduced growth at salinities 35 PSU may reflect the energetic costs of hypo-osmoreguation beginning in these stages. Our data suggest that the physiological adaptations of larval and early juvenile A. miersii allowing for survival and development in a physically harsh and unpredictable habitat imply a trade-off with reduced growth, due to energetic costs of osmoregulation.     

Effects of temperature on hatching rate, embryonic development and early larval survival of the edible sea urchin, Tripneustes gratilla

The temperature tolerances of embryonic and early larval development stages of Tripneustes gratilla were investigated from 13-34°C under laboratory conditions. Zygotes showed unequal cleavage at 13°C, whereas cleavage did not occurred at 34°C. Hatching was observed between 16–31°C with maximum hatching rates observed at 22–29°C. The lower and higher temperature limits for embryonic development were approximately 22°C and 29°C, respectively. Outside of this temperature range, embryos showed abnormality at different incubation times. Early larvae of this species have the ability to survive the higher temperature limit for short periods of time. Prism and 2 arm pluteus larvae survived at temperatures between 30 and 33°C, whereas 4 arm pluteus larvae survived at temperatures between 30 and 36°C for 2 h. These results suggest that the larval temperature tolerance capability of T. gratilla is stage dependent. These findings are important for understanding the life history strategy of this sea urchin in the shallow open water environment.     

体重和盐度对中国蛤蜊耗氧率和排氨率的影响

采用室内实验生态方法研究了不同软体部干重((1.022 ±0.821)、(0.557±0.266)、(0.303±0.277) g)和盐度(13、18、23、28、33)对中国蛤蜊(Mactra chinensis Philippi)耗氧率和排氨率的影响。结果表明:盐度、个体大小对中国蛤蜊耗氧率的影响极显著(P＜0.01),二者的交互作用对中国蛤蜊耗氧率影响显著(P＜0.05);中国蛤蜊单位体重耗氧率(R₀)与软体部干重(W)负相关,符合幂函数方程R₀=aW^-b, 其中a值的取值范围是0.695-1.762,平均值为1.449,b值的取值范围是0.446-0.587,平均值为0.542。盐度、个体大小对中国蛤蜊排氨率影响也极显著(P＜0.01);随着中国蛤蜊个体的增大,其单位体重排氨率逐渐降低;排氨率与其软体部干重呈负相关,它们之间可以用幂函数R_N=a₀W^-b₀表示。单位体重耗氧率和排氨率与盐度(S)、软体部干重(W)的二元线性回归方程分别为: R_O=2.111-1.817W+0.49S (R²=0.546, F=34.294, P＜0.001);R_N=168.186-120.589W+1.734S (R²=0.561, F=36.418, P＜0.001)。     

Effect of salinity on growth, ion content and CO2 assimilation rate in lemon varieties on different rootstocks

Citrus rootstocks as well as lemon scions differ in their ability to restrict sodium and chloride ions and in their sensitivity to saline stress. To determine the behaviour of different rootstock-scion combinations, 3 lemon cultivars on 3 different rootstocks were grown in containers in a greenhouse and irrigated with 5, 25 and 50 m M NaCl. Growth of the plants and foliar contents of sodium and chloride as well as physiological parameters including transpiration rate, gas exchange, stomatal conductance and chlorophyll content were evaluated. Shoot length of the plants on sour orange and on C. volkameriana showed a greater reduction with salinity than those on C. macrophylla . Accumulation of salt in the leaves was also scion dependent, cv. 'Eureka' having higher concentrations of sodium and chloride than the others. Assimilation rate of CO₂ and stomatal conductance were greatly reduced by salinity in the leaves of Verna and Eureka on sour orange. Gas exchange in the leaves was highly correlated with chloride and sodium contents in all lemon-rootstock combinations. C. macrophylla showed a higher resistance to salinity than C. volkameriana and sour orange. Inferences on the mechanisms of action of salt on lemon trees are discussed.     

Effects of grapevine bunch exposure to sunlight on berry surface temperature and Lobesia botrana (Lepidoptera: Tortricidae) egg laying,hatching and larval settlement

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NaHCO3胁迫对紫根水葫芦形态学指标和光合参数的影响

为研究Na HCO₃胁迫对紫根水葫芦的形态学指标及光合参数的影响,该文以紫根水葫芦为材料,采用不同浓度碱性盐Na HCO₃溶液处理成株紫根水葫芦,测定在Na HCO₃胁迫下紫根水葫芦的植株株高、根长、根冠比、生物量、含水量和光合参数[净光合速率(P_n)、胞间CO₂浓度(C_i)、蒸腾速率(T_r)、气孔导度(G_s)]。结果表明:紫根水葫芦在20 mmol·L^-1Na HCO₃浓度下的水溶液p H值最为平缓;在低浓度Na HCO₃溶液中(≤40 mmol·L^-1),相比CK,紫根水葫芦的形态学指标呈现增长或无显著影响情况,而在高浓度Na HCO₃溶液中(≥60 mmol·L^-1),随着Na HCO₃浓度的升高,紫根水葫芦形态学指标显著降低,且与Na HCO_3...