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1.
几个试验因子对细巧华哲水蚤清滤率和滤食率的影响 总被引:6,自引:0,他引:6
以象山港浮游桡足类优势种细巧华哲水蚤(Sinocalanus tenellus) 成体为试验动物投喂以大溪地等鞭金藻(Isochrysis galbona),对其清滤率F(ml/个.h)和滤食率G(细胞/个.h)进行了实验测定,结果表明,温度,海水比重,食物浓度及试验动物密度的变化对细巧华哲水蚤清滤率和滤食率均有显著影响,水温15度,比重1.-1-,食物浓度150000个细胞/ml和试验动物密度.25个/ml的条件下,细巧华哲水蚤滤食率达到最大。 相似文献
2.
在实验室条件下开展了中华哲水蚤(Calanus sinicus)对海洋赤潮藻环状异帽藻(Heterocapsa circularisquama)的生物滤食及其影响因子研究。结果表明藻浓度、温度、盐度和光周期等对中华哲水蚤的滤食率均有显著的影响(P0.01)。中华哲水蚤对环状异帽藻的滤食率随藻浓度的增加呈递增趋势;在10~20℃时,中华哲水蚤对环状异帽藻的滤食活动随温度的升高而增强,表现为滤食率G和清滤率F都同时上升,最佳滤食温度是20℃;18~24盐度是中华哲水蚤滤食环状异帽藻的适宜盐度,低于或高于该盐度范围,F和G都降低;中华哲水蚤对环状异帽藻的滤食率和清滤率对光周期的响应完全一致,均在全黑暗条件下为最佳,在全光照条件下达最低。 相似文献
3.
论文以强额孔雀水蚤(Parvocalanuscarssirostris)为研究对象,研究了不同培养温度(18℃、22℃、26℃、30℃)、不同种类微藻(球等鞭金藻(Isochrysisgalbana)、牟氏角毛藻(Chaetoceros muelleri)、青岛大扁藻(Platymonas helgolandica))饵料以及不同饵料质量浓度(0.5、1.0、1.5、2.5、5μgC/mL)对强额孔雀水蚤摄食的影响。结果表明:强额孔雀水蚤的清滤率随温度上升而上升,随饵料浓度上升而下降,26℃~30℃以及饵料浓度为0.5μgC/mL时清滤率较高;滤食率和摄食率随温度上升而上升,摄食球等鞭金藻和牟氏角毛藻时,在26℃时达到最高;摄食青岛大扁藻时,两者随温度升高持续上升。对3种藻的摄食率大小顺序为:青岛大扁藻>球等鞭金藻>牟氏角毛藻;强额孔雀水蚤摄食碳量占体碳比较高,远高于中华哲水蚤(Calanussinicus)、海洋伪镖水蚤(Pseudodiaptomus annandalei)等大中型桡足类;强额孔雀水蚤的最适饵料等效球直径约为11.5μm,青岛大扁藻为强额孔雀水蚤较适口的饵料。 相似文献
4.
饵料、温度和盐度对两种海洋桡足类摄食与排粪的影响 总被引:1,自引:0,他引:1
中华哲水蚤是中国近海典型的浮游桡足类,猛水蚤是青岛胶州湾和汇泉湾常见底栖桡足类,研究2种海洋桡足类的摄食和排粪规律可为大量培养桡足类提供最佳条件。论文研究了在6种不同饵料(球等鞭金藻、亚心形扁藻、小球藻、绿色巴夫藻、三角褐指藻、小新月菱形藻)的条件下,温度和盐度对中华哲水蚤和猛水蚤摄食和排粪的影响。温度和盐度对2种桡足类摄食和排粪的影响具有种间差异性。中华哲水蚤在15℃的摄食率、滤水率和排粪率高于在20和25℃的摄食率、滤水率和排粪率。在15、20和25℃3个温度范围内,猛水蚤的摄食率、滤水率和排粪率随温度升高而升高。在20~36盐度范围内,中华哲水蚤的摄食率、滤水率和排粪率随盐度的升高先升高后降低,在盐度为28时达到最大值,猛水蚤的摄食率、滤水率和排粪率随盐度升高而逐渐降低,猛水蚤摄食和排粪的最适盐度为20。温度和盐度实验均表明,在6种饵料中,亚心形扁藻和球等鞭金藻有利于中华哲水蚤的摄食,球等鞭金藻有利于猛水蚤的摄食,而小球藻对2种桡足类的摄食均不利。 相似文献
5.
为评估短角异剑水蚤(Apocyclops royi)作为海水鱼类仔稚鱼的饵料价值和投喂效果,比较分析了其与卤虫无节幼体(Artemia nauplii)的脂肪酸组成及2种生物饵料对克氏双锯鱼(Amphiprion clarkii)稚鱼存活、生长和脂肪酸组成的影响。结果显示,短角异剑水蚤DHA、EPA和ARA含量分别达21.185%、11.088%和3.250%,海水仔稚鱼必需脂肪酸(EFA)总含量高达37.417%,均显著高于卤虫无节幼体。投喂短角异剑水蚤的克氏双锯鱼稚鱼(5~20 d)成活率(80.71%±8.23%)与投喂卤虫无节幼体组(76.30%±7.00%)差异不显著;稚鱼体长(7.75 mm±1.18 mm)、体重(0.0163 g±0.0080 g)和体长特定生长率(3.46%±0.75%)均显著高于卤虫无节幼体投喂组;稚鱼体内DHA(21.843%)、EPA(6.914%)和ARA(2.725%)含量也均显著高于后者。研究表明,短角异剑水蚤适于作为海水鱼类仔稚鱼的生物饵料,在水产养殖中具有广阔的应用前景。 相似文献
6.
UV-B辐射对指状许水蚤效应的初步研究 总被引:2,自引:0,他引:2
探讨UV-B辐射增强对海洋生态系统的影响,通过实验生态学的方法,研究了UV-B辐射对指状许水蚤(Schmacheria inopinus,Burckhardt)雌雄成体的致死率、摄食率和滤水率的影响。结果表明,在实验所设定的辐射剂量下,指状许水蚤雄性成体对UV-B辐射的致死率明显高于雌性成体的致死率;UV-B辐射对雄性成体的24h的半数致死剂量(24h.LD50)为5.77kJ/m2,而对雌性成体48h的半数致死剂量(48h.LD50)为5.04kJ/m2。在较低剂量下(0~1.728kJ/m2),UV-B辐射对雌雄成体的摄食率(F)和滤水率(G)都有明显的抑制作用。 相似文献
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8.
饵料密度、温度和体质量对大西洋浪蛤滤水率的影响 总被引:6,自引:0,他引:6
2004年4月~7月采用实验生态学方法对浙江引种养殖的大西洋浪蛤(Spisula solidissima)繁殖培育的一龄蛤进行滤水率的研究。结果表明:(1)以新月菱形藻为饵料,在适宜的饵料密度范围内大西洋浪蛤的滤水率随着饵料密度的增加而增大,它们之间呈函数关系;(2)体质量对滤水率的影响呈幂函数关系y=0.1622W^0.848(R^2=0.9988);(3)在一定温度范围内,随温度升高滤水率增加;超过一定温度范围,随温度升高滤水率下降。当温度为21℃时滤水率达到最大值0.77L/h。 相似文献
9.
采用单养和混养的方法,在实验条件下研究了东海原甲藻对中华哲水蚤摄食和消化酶活性的影响.结果表明:(1)中华哲水蚤对东海原甲藻存在一定摄食行为,藻类密度对摄食率有明显的影响.实验密度下,中华哲水蚤对东海原甲藻的最大摄食率为930cells/(ind·h).滤水率随着藻密度的增加而呈单一性的下降;(2)混养条件下,中华哲水蚤对金藻和东海原甲藻的摄食率均较单养时下降,滤水率的变化与摄食率相似;(3)不同藻密度下,昆布多糖酶活性都明显高于麦芽糖酶和纤维二糖酶的活性,而麦芽糖酶活性又稍高于纤维二糖酶的活性.与金藻相比,东海原甲藻实验组中华哲水蚤3种消化酶活性明显升高(P<0.05). 相似文献
10.
在室内可控条件下,比较和分析了青岛大扁藻Tetrasemis helgolandica、球等鞭金藻Isochrysis galbana、角毛藻Chaetoceros calcitrans、微绿球藻Nannochloropsis oculata和绿色巴夫藻Pavlovaviridis5种微藻对泥蚶Tegillarca granosa、缢蛏Sinonovacula constricta、青蛤Cyclina sinensis和彩虹明樱蛤Moerella iridescens4种滩涂贝类稚贝生长的影响。结果显示,在培养初期(5~6 d),投喂不同微藻的稚贝实验样品生长速度差异并不明显,但培养9~10 d后,各实验组稚贝实验样品的生长速度开始出现明显差异:投喂角毛藻、球等鞭金藻的泥蚶和缢蛏稚贝实验样品及投喂角毛藻、青岛大扁藻的青蛤和彩虹明樱蛤稚贝实验样品,运动能力强,生长迅速、整齐,经过15~18 d的培养,成活率达85%以上;投喂微绿球藻的4种稚贝实验样品,运动能力弱,生长缓慢、不整齐,成活率低于20%。投喂角毛藻的泥蚶、缢蛏和青蛤稚贝实验样品的生长速度最快;投喂青岛大扁藻的彩虹明樱蛤稚贝实验样品的生长速度最快,而投喂角毛藻的彩虹明樱蛤稚贝实验样品的生长速度与之非常接近。角毛藻对泥蚶、缢蛏和彩虹明樱蛤稚贝实验样品的饵料效果最好,球等鞭金藻次之;青岛大扁藻对青蛤和彩虹明樱蛤稚贝实验样品的饵料效果与角毛藻非常接近,而青岛大扁藻对泥蚶和缢蛏稚贝实验样品的饵料效果较差;绿色巴夫藻的饵料效果与球等鞭金藻类似但均比球等鞭金藻差;微绿球藻的饵料效果最差。用颗粒粒度计数分析仪分析泥蚶和青蛤稚贝实验样品对5种微藻的选择性滤食后发现,最先被泥蚶稚贝实验样品滤食干净的是角毛藻,其后是球等鞭金藻;泥蚶稚贝实验样品开始滤食青岛大扁藻时的速度较慢,但当角毛藻和球等鞭金藻被滤尽后,青岛大扁藻也被迅速滤食,泥蚶稚贝实验样品滤食微绿球藻的速度最慢;最先被青蛤稚贝实验样品滤净的也是角毛藻,其后是青岛大扁藻,在角毛藻和青岛大扁藻被滤尽后,球等鞭金藻也迅速被滤食干净,微绿球藻同样是最慢被滤食的。可见,贝类稚贝总是优先滤食饵料效果好的微藻,饵料效果最差的微藻被贝类稚贝滤食的速度最慢。 相似文献
11.
微藻处理养殖尾水已成为热点研究方向,有关一定盐度范围内海水养殖尾水的微藻处理研究较少。本试验调配了两种盐度(16和26)的海水养殖尾水,以空白组作对照,设置小球藻(Chlorella salina)初始接种密度梯度(5×105、1×106、2×106和3×106个/mL),研究小球藻对海水养殖尾水中不同形态氮和磷的去除效果。结果表明,小球藻在海水养殖尾水中生长良好,可有效去除尾水中的氮磷营养盐,16盐度组中各初始藻密度组对NH4+、NO3-和总溶解态氮(total dissolved nitrogen,TDN)的去除率分别为85.03%~85.87%、60.87%~63.70%和54.53%~57.64%,组间无显著差异(P>0.05);26盐度组中除5×105组外,其余藻密度组对NH4+、NO3-和TDN的去除率分别为87.23%~88.16%、56.70%~57.79%和53.31%~54.62%,且组间无显著差异(P>0.05),表明小球藻初始接种密度对尾水中氮盐的去除无显著影响。除5×105个/mL组外,16与26盐度组中对TDN的去除率无显著差异,表明盐度变化对氮的去除无影响。随着初始藻密度的升高,16和26处理组对总溶解态磷(total dissolved phosphorus,TDP)的去除率均上升,分别为76.13%~99.53%和63.72%~96.83%,表明藻初始接种密度的升高可促进尾水中磷的去除,且盐度升高没有影响小球藻对磷的去除。本研究获得了不同初始接种密度小球藻对一定盐度范围的海水养殖尾水的吸收利用特点,可为海水养殖尾水的生态化处理提供一定的理论基础。 相似文献
12.
台湾海峡小型浮游动物的摄食对夏季藻华演替的影响 总被引:3,自引:2,他引:3
于2004年8月1~6日对台湾海峡南部近岸的藻华过程进行了定点连续跟踪观测,用稀释法研究了浮游植物的生长率和小型浮游动物对浮游植物的摄食死亡率,同时运用高效液相色谱(HPLC)技术,分析了浮游植物不同光合色素类群的生长率和摄食死亡率.结果表明,观测期间处于藻华的消退期.8月1日时,浮游植物生物量(叶绿素a)和丰度分别为2.04μg/dm3和2.99×105个/dm3,主要优势种为尖刺伪菱形藻(Pseudo-nitzschia pungens)、冰河拟星杆藻(Asterionellopsis glacialis)和中肋骨条藻(Skeletonema costatum),8月6日时,浮游植物生物量和丰度分别减为0.37μg/dm3和1.54×104个/dm3;而蓝藻和甲藻的丰度和比例则呈现出逐渐增加的趋势,所占的比重分别从1日的0.04%和0.85%增加到6日的9.59%和41.97%.小型浮游动物主要由无壳纤毛虫、砂壳纤毛虫、红色中缢虫(Mesodinium rubrum)和异养甲藻等类群组成,总丰度于8月2日达到最大值,为3640个/dm3,之后逐渐减少,6日时,仅为436个/dm3.观测期间,小型浮游动物在群落组成上虽一直以无壳纤毛虫和异养甲藻为主,但在具体的类群结构上却表现出了一定的差异,30μm以下的无壳纤毛虫和异养甲藻总体呈下降的趋势,而红色中缢虫、砂壳纤毛虫和大于50μm的无壳纤毛虫总体呈增加的趋势.观测期间,浮游植物的生长率为0.40~0.91d-1,小型浮游动物的摄食率为0.26~1.34d-1,摄食率和生长率总体呈逐渐下降的趋势.结果还表明,小型浮游动物的摄食率与叶绿素a具有很好的相关性(R2=0.89),对各光合色素类群的现存量和初级生产力均具有较高的摄食压力(分别为37.97%~82.24%和70.71%~281.33%),是藻华消亡的重要原因之一;此外,小型浮游动物对甲藻和蓝藻的避食行为,可能是观测期间由“硅藻”水华向“硅藻-甲藻”水华转变的重要原因之一. 相似文献
13.
Grazing by meso- and microzooplankton on phytoplankton in the upper reaches of the Schelde estuary (Belgium/The Netherlands) 总被引:1,自引:1,他引:1
M. Lionard F. Azmar S. Boulêtreau K. Muylaert M. Tackx W. Vyverman 《Estuarine, Coastal and Shelf Science》2005,64(4):764-774
In contrast with the marine reaches of estuaries, few studies have dealt with zooplankton grazing on phytoplankton in the upper estuarine reaches, where freshwater zooplankton species tend to dominate the zooplankton community. In spring and early summer 2003, grazing by micro- and mesozooplankton on phytoplankton was investigated at three sites in the upper Schelde estuary. Grazing by mesozooplankton was evaluated by monitoring growth of phytoplankton in 200 μm filtered water in the presence or absence of mesozooplankton. In different experiments, the grazing impact was tested of the calanoïd copepod Eurytemora affinis, the cyclopoid copepods Acanthocyclops robustus and Cyclops vicinus and the cladocera Chydorus sphaericus, Moina affinis and Daphnia magna/pulex. No significant grazing impact of mesozooplankton in any experiment was found despite the fact that mesozooplankton densities used in the experiments (20 or 40 ind. l−1) were higher than densities in the field (0.1–6.9 ind. l−1). Grazing by microzooplankton was evaluated by comparing growth of phytoplankton in 30 and 200 μm filtered water. Microzooplankton in the 30–200 μm size range included mainly rotifers of the genera Brachionus, Trichocerca and Synchaeta, which were present from 191 to 1777 ind. l−1. Microzooplankton had a significant grazing impact in five out of six experiments. They had a community grazing rate of 0.41–1.83 day−1 and grazed up to 84% of initial phytoplankton standing stock per day. Rotifer clearance rates estimated from microzooplankton community grazing rates and rotifer abundances varied from 8.3 to 41.7 μl ind.−1 h−1. CHEMTAX analysis of accessory pigment data revealed a similar phytoplankton community composition after incubation with and without microzooplankton, indicating non-selective feeding by rotifers on phytoplankton. 相似文献
14.
Phytoplankton growth and microzooplankton grazing were studied during the 2007 spring bloom in Central Yellow Sea. The surveyed stations were divided to pre-bloom phase (Chl a concentration less than 2 μg L−1), and bloom phase (Chl a concentration greater than 2 μg L−1). Shipboard dilution incubation experiments were carried out at 19 stations to determine the phytoplankton specific growth rates and the specific grazing rates of microzooplankton on phytoplankton. Diatoms dominated in the phytoplankton community in surface waters at most stations. For microzooplankton, Myrionecta rubra and tintinnids were dominant, and heterotrophic dinoflagellate was also important in the community. Phytoplankton-specific growth rates, with an average of 0.60±0.19 d−1, were higher at pre-bloom stations (average 0.62±0.17 d−1), and lower at the bloom stations (average 0.59±0.21 d−1), but the difference of growth rates between bloom and pre-bloom stations was not statistically significant (t test, p=0.77). The phytoplankton mortality rate by microzooplankton grazing averaged 0.41±0.23 d−1 at pre-bloom stations, and 0.58±0.31 d−1 during the blooms. In contrast to the growth rates, the statistic difference of grazing rates between bloom and pre-bloom stations was significant (after removal of outliers, t test, p=0.04), indicating the importance of the top-down control in the phytoplankton bloom processes. Average potential grazing efficiency on primary productivity was 66% at pre-bloom stations and 98% at bloom stations, respectively. Based on our results, the biomass maximum phase (bloom phase) was not the maximum growth rate phase. Both phytoplankton specific growth rate and net growth rate were higher in the pre-bloom phase than during the bloom phase. Microzooplankton grazing mortality rate was positively correlated with phytoplankton growth rate during both phases, but growth and grazing were highly coupled during the booming phase. There was no correlation between phytoplankton growth rate and cell size during the blooms, but they were positive correlated during the pre-bloom phase. Our results indicate that microzooplankton grazing is an important process controlling the growth of phytoplankton in spring bloom period in the Central Yellow Sea, particularly in the “blooming” phase. 相似文献
15.
利用实验生态学方法研究不同个体大小的海蜇浮游幼体[平均伞径(2.5±0.1),(4.1±0.2),(11.7±0.5),(21.1±0.6)mm]对不同密度(10,30,50,80ind/L)的褐牙鲆卵[卵径(0.92±0.01)mm]和初孵仔鱼[全长(3.01±0.08)mm]的捕食率,解析海蜇浮游幼体对初孵仔鱼的捕食率随捕食时间(0.5,1,2,3,4,5h)的变化特征。结果表明,各个体组海蜇浮游幼体对卵的捕食率均显著低于对仔鱼的捕食率;它们对卵的捕食率与卵密度和海蜇个体大小的关系不显著,但对仔鱼的捕食率随海蜇个体大小及仔鱼密度的增大而显著升高;伞径21.1mm的个体对仔鱼的捕食率在开始捕食后1h时达到最大值[17.3ind/(predator.h)],此后随捕食时间的延长而逐渐下降。在自然水域中,如果二者发生时空上的匹配关系,海蜇浮游幼体对仔鱼的捕食可能影响褐牙鲆的早期存活及其资源补充量的变动。 相似文献
16.
通过野外海区挂板的方法,探讨高密度聚乙烯(HDPE)、低密度聚乙烯(LDPE)、聚氯乙烯(PVC)、聚苯乙烯(PS)、聚对苯二甲酸乙二酯(PET)和聚氨酯(PUR)6种不同材料的塑料挂板对海月水母(Aurelia sp.1)附着的影响,分析不同塑料挂板表面粗糙度和海月水母附着的关系.研究结果表明:海月水母浮浪幼虫在夏末秋初可以附着在人工投放的塑料挂板附着基上,表明海岸带工程造成的人工附着基增多可能为海月水母的附着提供便利条件;海月水母螅状幼体在不同材料塑料挂板上的附着率有明显差异,PET、PUR和PVC塑料挂板海月水母螅状幼体附着率显著大于其他3种塑料挂板,其中PUR塑料挂板海月水母螅状幼体附着率最大,附着率为3.21±0.74 ind./cm2,HDPE塑料挂板海月水母螅状幼体附着率最低为0.26±0.08 ind./cm2;海月水母浮浪幼虫附着率与不同材料表面的粗糙度并不显著相关,表明塑料挂板材料的表面粗糙度并不是影响海月水母螅状幼体附着率的关键因子,而不同材料塑料挂板上形成的生物膜可能也对海月水母浮浪幼虫的附着产生影响.研究结果可为我国近岸海域有害水母海月水母暴发和防控研究提供一定的重要参考数据. 相似文献
17.
Effects of the toxic dinoflagellate Alexandrium tamarense on the greenshell mussel Perna canaliculus
Abstract Oxygen consumption, grazing rate, and byssus production of the greenshell mussel Perna canaliculus were measured following exposure to bloom concentrations (106 cells l?1 ) of a toxic clone of the dinoflagellate AIexandrium tamarense (GT429), using anon‐toxic clone of the same species (PLY173) as control. Following feeding for 1 h on GT429, mussels (dry weight 54–127 mg) showed significantly increased oxygen uptake at 15°C (0.08 μl O2 (mg dry tissue weight)?1 ) compared with control mussels. However, following 24 h recovery, oxygen uptake was similar to initial values in all experimental conditions. The grazing rate of P. canaliculus fed upon toxic clone GT429 was 4.58 ± 0.76 cells mg?1 h?1 compared with 1.99 ± 0.47 cells mg?1 h?1 for PLY173. On exposure to A. tamarense, mussels maintained normal opening behaviour and there was no change in the byssus production over 24 h. It was concluded that P. canaliculus showed no dramatic physiological effects following short‐term feeding on the toxic strain of A. tamarense. During 2 weeks’ exposure to twice daily bloom concentrations of GT429, there was no mussel mortality. Toxicity in the tissues was 1295 μg STX equivalent per 100 g tissue, levels at which these mussels would be unsuitable for human or animal consumption. 相似文献
18.
Bivalves feed on a combination of phytoplankton and zooplankton and have the potential to impact considerably the planktonic biomass, especially when they occur in high densities, such as in oyster and mussel beds. The brackwater mussel Brachidontes virgiliae is numerically dominant during wet phases within Africa’s largest estuarine lake, St Lucia, in the iSimangaliso Wetland Park on the east coast of South Africa. The ingestion rates and potential grazing impact of this small mussel (maximum shell length = 2.5 cm) were estimated for both the wet and dry seasons using an in situ gut fluorescence technique. Ingestion rates were higher during the wet season (5.78 µg pigment ind.?1 d?1) than during the dry season (4.44 µg pigment ind.?1 d?1). This might be explained by the increased water temperature and food availability during the wet season. Because of the patchy distribution of mussel populations, there could be higher localised grazing impact near mussel aggregations. Results showed a potential grazing impact of up to 20 times the available phytoplankton biomass at specific sites. These high grazing impacts have the potential to deplete phytoplankton stocks in the lake, especially during wet phases in the northern reaches, where mussel densities are highest. This needs to be factored into ecological models of Lake St Lucia, because the system might function differently during increased flood events. 相似文献
19.
采用光滑河蓝蛤和菲律宾蛤仔两种双壳贝类培养长蛸幼体,分析其生长和存活情况。结果显示,长蛸初孵幼体无外卵黄,体表光滑,第一对腕(最长腕)约为胴长的2.9倍,腕吸盘两列,第1—4对腕平均吸盘数(n=3)分别为66±4.60、55±3.76、43±4.59和41±3.82;1—15d幼体投喂的是光滑河蓝蛤(壳长15.4—20.3mm),之后投喂菲律宾蛤仔(壳长33.2—39.3mm);幼体30d—70d总成活率由80.99%降至54.65%;整个培育过程中,幼体生长率与饵料效率呈极显著线性回归关系(P0.01),y=1.452x-2.731(R2=0.865);1—80d胴长/全长比增幅高于腕长/全长,表明胴体增长快于腕的增长;各腕吸盘数变化不显著;幼体鲜重与培养天数呈指数函数关系,Wt=0.301e0.010t(R2=0.854,P0.01);长蛸幼体最终生长率为122.05%,平均生长率为9.97%/10d。 相似文献