共查询到19条相似文献,搜索用时 125 毫秒
1.
大叶藻海草床的退化和恢复受到国内外学者的广泛关注,而大叶藻种子萌发则是恢复实践中的一项关键技术。为了提高大叶藻种子萌发率,本研究在实验室可控条件下,采用正交实验对影响大叶藻种子萌发的环境因素(盐度、温度、N/P营养盐浓度及p H)进行了优化,并在优化条件下进一步探究了光质类型、UV-B辐射、低温层积和划破种皮对大叶藻种子萌发和平均萌发时间的影响。结果表明:盐度12、温度10°C、N/P营养盐浓度960/60μmol/L、p H 6.2是大叶藻种子相对适宜的萌发条件组合;黑暗条件下大叶藻种子萌发率最高,为92%,不同类型光质照射不促进大叶藻种子萌发率的提高,但红光照射可在短期内加速种子萌发;在一定强度范围内,种子萌发率随UV-B辐射时长的增加而升高,每日辐射8h,处理8周后种子萌发率可达93%。划破种皮和低温层积均可显著提高大叶藻种子的萌发率并缩短平均萌发时间,经划破种皮处理后,2周内种子萌发率可提高至91%。 相似文献
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《中国海洋大学学报(自然科学版)》2017,(5)
大叶藻(Zostera marina L.)是全球分布最广泛的海草之一,曾在山东半岛沿海有广泛分布。然而,自1980年代开始,受自然因素和人类活动的影响,大叶藻场严重衰退,导致黄海近岸海洋生态系统恶化,渔业资源锐减。本研究以中国黄海海域(山东半岛)大叶藻为研究对象,研究不同温度、春化作用时间对大叶藻种子萌发和不同播种深度对种子成苗率的影响,进行了幼苗培育,研制开发幼苗移栽装置和技术。结果表明:春化处理温度对大叶藻种子萌发率具有显著影响(p0.01),4℃春化处理50d的大叶藻种子萌发率最高,平均达55.3%;埋植深度对大叶藻种子萌发率和幼苗成苗率有影响,埋植深度0.5~2.5cm时大叶藻幼苗的出苗率相似,但显著高于埋植深度3~4.5cm的成苗率(p0.01)。依据这些研究结果,成功培育大叶藻苗7.6万株,生长110d,平均幼苗长度达16.3cm,最大长度达22cm;研制了育苗杯大叶藻苗移栽装置,实现了从水面高效栽植大叶藻幼苗。 相似文献
3.
黄海绿潮起源于苏北浅滩,每年夏天漂移到青岛沿岸泛滥成灾,对生态环境造成严重破坏。苏北浅滩受沿岸径流输入影响,盐度变化范围大,青岛海域盐度较稳定,稍高于苏北浅滩。盐度对浒苔微观繁殖体萌发、藻体生长及繁殖过程具有重要作用,通过室内连续受控实验,系统研究了固定盐度(5、10、15、20、25、30、33、35)和变化盐度(盐度逐渐降低)对浒苔微观繁殖体固着、萌发、藻体生长和繁殖不同阶段的影响,主要结论如下:固着阶段,盐度5不利于浒苔微观繁殖体的固着,盐度10~35对微观繁殖体固着的影响不显著,相同盐度下,孢子的固着量显著高于配子。萌发阶段,不同盐度(5~35)及不同盐度变化形式对微观繁殖体(孢子和配子)的萌发没有显著影响,孢子的萌发速度快于配子,最终均能完全萌发。生长阶段,低盐(5~15)不利于浒苔幼苗的生长。繁殖阶段,当盐度≤10时,浒苔不进行生殖活动;盐度15~35范围内,浒苔可以产生微观繁殖体,完成一个完整的生活史;在绿潮形成过程中,孢子的生殖策略为K对策,配子的生殖策略为R对策。上述结论表明,在苏北浅滩和青岛海域,盐度不是限制浒苔发生发展及繁殖过程的关键环境因子,明确了盐度在绿潮发生... 相似文献
4.
以采自山东荣成褚岛桑沟湾南岸成熟的大叶藻种子为材料,研究了种子的外部形态特征、胚乳成分及胚的解剖结构,并初步了解了大叶藻种子的萌发过程。结果表明,大叶藻种子是单子叶有胚乳的种子,呈暗褐色,椭圆形或长圆形,种皮革质且有17~20条纵肋,胚乳丰厚坚硬,胚乳细胞被淀粉粒充满;胚弯曲,由胚根、胚轴、胚芽和子叶组成,子叶U形棒状,其弯曲部有一裂缝,胚芽位于裂缝处,胚轴较短,其下是两个对生的胚根,有中央维管束贯穿胚根、胚轴、胚芽和子叶。在子叶出土萌发的植物类型中,大叶藻种子萌发过程是罕见的。萌发初期,子叶优先生长突破种皮而长出地面,此后胚根才开始生长并产生不定根。对大叶藻种子结构和萌发过程的研究,为探讨大叶藻种子萌发和幼苗更新的限制因素提供了一定的理论依据。 相似文献
5.
通过离体组织培养,观察了灰叶马尾藻Sargassum cinereum卵细胞分裂过程,并探讨盐度对其卵释放和幼孢子体发育的影响。结果表明,在实验盐度范围(15‰~42‰)内,灰叶马尾藻均能正常排卵,其中盐度22‰~34‰时,卵可集中快速放散,而偏高或偏低盐度导致卵子释放延迟,同时高盐(30‰~42‰)比低盐(15‰~26‰)处理的灰叶马尾藻释放更多卵子。卵从卵窝孔刚排出时为1核卵,在随后4h内经核分裂形成8核卵,其中只有1个子核可与精子核结合成为受精卵,其他子核消失。受精卵的第一、二次分裂为横分裂,而第三、四次为纵分裂,4次分裂历时4~5h,之后分裂速度加快,细胞数目迅速增多,1d内形成幼孢子体。第2d以假根生长为主,此后叶状部逐渐生长。盐度显著影响灰叶马尾藻幼孢子体早期发育,当盐度22‰~38‰时假根生长正常,偏高或偏低盐度均不利于假根生成和伸长,其中高盐度对假根生长的抑制程度更强;叶状部生长的适宜盐度为26‰~38‰。综上所述,灰叶马尾藻卵释放及幼孢子体早期发育的适宜盐度为26‰~34‰,其中最适盐度为34‰。 相似文献
6.
天鹅湖大叶藻种苗补充情况调查 总被引:2,自引:0,他引:2
本研究以山东荣成典型潟湖——天鹅湖内的大叶藻(Zostera marina L.)海草床为研究对象,从2015年3月到6月对大叶藻种子萌发形成的幼苗进行进了月度调查,包括春季大叶藻种苗的密度、株高、叶鞘高、叶数、叶宽以及分枝情况。结果表明,天鹅湖大叶藻种子在3月即开始萌发,但萌发量较少,种苗密度较低;4月种子大量萌发,种苗密度不断升高,并达到峰值,为(481.77?303.42)株/m2;5月份种子萌发结束,种苗密度下降,同时开始克隆生长;6月份种苗不断生长,分枝数增多,种苗开始出现有性生殖枝。至此,春季种苗的萌发过程结束,进入有性生殖过程。 相似文献
7.
《海洋湖沼通报》2020,(4)
海三棱藨草(Scirpus mariquete)是一个在滩涂潮间带原生裸地上首先定居的先锋种,是我国特有的盐沼植物。通过分析海三棱藨草种子和球茎的物理特性及室内正交试验研究其萌发的生物学特性,探究不同环境因子(温度、盐度、淹水深度)对该物种种子和球茎萌发的影响,本研究采用3因素5水平的正交试验进行探究,结果表明:海三棱藨草种子和球茎最佳萌发的环境因子组合均为温度为34℃、盐度为4‰、水深为0cm,最佳组合下种子发芽率为(81.82%±1.85%),显著(p0.05)低于球茎的(88.88%±2.31%);海三棱藨草种子萌发对温度有较广的适应性,18—42℃都可以萌发,26—34℃萌发率较高且无显著差异(p0.05);不同盐度下海三棱藨草种子的萌发率有较大的差异,海三棱藨草的种子在盐度为0—4‰的环境下发芽率最高。结论认为,影响海三棱藨草种子萌发的关键因素依次为盐度、温度和水深,影响海三棱藨草球茎的关键因素依次为盐度、水深和温度。海三棱藨草种子比球茎具有更强的耐环境胁迫能力,但是海三棱藨草球茎在最佳条件下比种子具有更高的发芽率。本研究为探究长江口湿地海三棱藨草退化的原因及其保护提供理论依据。 相似文献
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9.
盐度对海湾扇贝不同发育阶段的影响 总被引:32,自引:5,他引:32
本实验于1985—1986年进行。控制水温在最适条件下,实验结果表明,海湾扇贝Argopecsen irradians Lamarck各发育阶段对盐度的耐受力不同。从受精卵正常发育至D形幼虫的适宜盐度范围为25—32S,其中从担轮幼虫期正常发育至D形幼虫的适宜盐度范围扩大为23—37S。在72h的实验效应内,D形幼虫存活的适宜盐度范围为21—36S,生长的适宜盐度范围为22—33S。其中23S是D形幼虫的存活和生长的最佳盐度。幼虫正常变态成苗的盐度范围相当狭窄,大于60%的变态率仅发生在23.8—26.8S范围内。平均壳高为1063.2μm的幼苗在21.5—44.7S中能百分之百存活94h以上,其适宜生长盐度范围为21—37S。个体稍大的幼贝(27—30mm)能在2l一41S中存活144h以上。幼贝经过中间适应后,存活的盐度范围可扩大至13.2—46.4S。 相似文献
10.
近几十年来,受到人类活动和气候变化的影响,全球海草床呈现退化趋势,海草床的恢复备受关注。其中,海草种子或幼苗移植由于其对供体海草床破坏和影响较小,并能保证海草的遗传多样性而备受重视。移植区的底质类型是决定海草种子或幼苗移植存活率的重要因子,然而,目前关于热带海草种子萌发和幼苗生长对不同底质类型响应的研究很有限。本研究以热带海草海菖蒲(Enhalus acoroides)种子为研究对象,利用室内模拟实验,分别设置细砂和砂砾底质的处理,探讨不同底质类型对海菖蒲种子萌发和幼苗生长的影响。研究发现,细砂组和砂砾组的萌发率和萌发历期的平均值分别96.3%、3.6 d和95.0%、3.4 d,两个处理组之间差异不显著。萌发后的细砂组海菖蒲幼苗的存活率为97.37%,而砂砾组的幼苗存活率仅为81.58%;另外,海菖蒲幼苗的叶片长度、根长度、叶片生长速率和根生长速率在细砂组均显著高于砂砾组。因此,沉积物粒径的差异对海草种子的萌发率和萌发时间没有显著性影响,但沉积物粒径增大会显著降低萌发后海菖蒲幼苗的存活率和生长速率。因此,未来开展海菖蒲种子或幼苗的野外移植,应选取沉积物粒径较小细砂质区域进行移植,可促进海菖蒲种子或幼苗移植的成活率,提高海菖蒲生态修复的成功率。 相似文献
11.
Vast declines in Zostera marina seagrass beds demand effective methods of rehabilitation. In this study, we developed a practical method by reducing salinity to induce seed germination followed with recovering salinity to facilitate seedling production of Z. marina. The results showed that Z. marina seeds collected from natural seawater(salinity 30) were induced to germinate at reduced salinities. Percent germination(GR) was higher and mean-time-to-germinate(MTG) was shorter at lower salinities. The highest GR and shortest MTG occurred at salinity 0(deionized freshwater). After germination in freshwater, seeds could develop into seedlings at salinities5–30 and continue the growth. Viability or development of germinated seeds was not significantly different during the 40 d of post-germination incubation at salinities 5–15 after 1–20 d of germination in freshwater. However,during the process of translating germinated seeds from salinity 0 and 5 to salinity 30, reducing the gradients of post-germination acclimation facilitated more seeds forming seedlings in less time. On average, after 60 d of static incubation, including 20 d in freshwater for germination followed with immediate shift to salinity 5 and increasing to salinity 30 at increment of 5 every two days until cultivation at constant salinity 30, 33% of Z. marina seeds produced healthy seedlings. The results indicate that the salinity-manipulation based method of artificial germination and seedling production is practical and effective in supporting rehabilitation of Z. marina bed. 相似文献
12.
The plant reproductive effort, the seed germination rate and the seedling survival and development of Zostera marina (eelgrass) were assessed in four populations (Fuzeta, Culatra, Barrinha and Armona) at the species’ southern distribution limit in the Eastern Atlantic, the Ria Formosa lagoon. Germinated seeds were individually placed in Petri dishes with natural sandy sediments and kept in a culture chamber at the same temperature and salinity conditions as the natural environment. In addition, seeds from three different depths of Fuzeta population were cultivated in outdoor mesocosms. The populations of Fuzeta and Barrinha showed higher seed production and the seeds produced were heavier than the other populations. The germination of the seeds both in the laboratory and in the outdoor tanks began c. 8–12 weeks after the collection of the flowering shoots at a water temperature of 22 °C. The spontaneous germination in the laboratory (2.4–5.3%) and in the mesocosm experiment (5.6–8.9%) was low and from all the germinated seeds (n = 20) only three reached the seedling stage. The spontaneously germinated seeds from Fuzeta survived for a longer period than those from Barrinha, but only the germinated seeds of Barrinha reached the seedling stage (one‐leaf seedling stage). In outdoor tanks, higher seed germination and earlier seedling emergence (2 weeks after seeding) and survival (for 208 days) occurred for the seeds obtained from the shallow meadow. The reproductive effort of Z. marina populations of Ria Formosa showed that flowering shoots and seed traits are site‐specific. The low reproductive success indicated by the low germination and seedling survival suggests a bottleneck in the species’ reproductive cycle that may account for the scarce presence of the species in Ria Formosa lagoon. The high water temperatures of Ria Formosa in winter may partly explain this bottleneck. Increased temperatures due to climate change may reduce even further the sexual reproduction of Z. marina in its southern distributional limit in the Eastern Atlantic. 相似文献
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The neritid Smaragdia viridis represents the only known native marine mollusc that feeds on seagrass tissues in the European coasts, displaying a strong association with the seagrasses Cymodocea nodosa and Zostera marina in southern Spain. Seasonal dynamics, shell and radular morphology, growth and feeding of this gastropod have been studied in relation to each seagrass species for contrasting trends resulting from a different type of substrate and food source. In both seagrass species, stable populations of this gastropod occur at similar densities and displaying similar growth rates. Nevertheless shells of individuals from C. nodosa are narrower than those from Z. marina and some differences, possibly a consequence of increased wearing on C. nodosa, were noted amongst the radulae. In C. nodosa, a pre-ingestive selection for young epidermal tissues occurs as it was previously observed in Z. marina. The ingestion rate is higher in C. nodosa than in Z. marina but the absorption of ingested tissues is lower in the former. If both seagrasses are present, most individuals ingested preferentially Z. marina rather than C. nodosa, probably due to the lower digestibility of the epidermal tissues in the latter. Seagrass beds, especially those of Z. marina, are suffering a strong regression in southern Spain and the presence of stable populations of this neritid may be restricted to other declining seagrass species in the area. 相似文献
14.
坛紫菜耐低盐品系的选育与特性分析 总被引:5,自引:1,他引:4
本实验室采用人工诱变技术获得一个坛紫菜耐低盐品系(YZ-7),为了验证该品系的耐低盐性状能否遗传,本文对其壳孢子和F1叶状体的低盐耐受性分别进行了测试,并以坛紫菜野生品系(WT)作为对照,结果表明:在不同盐度下培养2周的YZ-7和WT的壳孢子,在26盐度组存活率无显著差异;在15盐度组,YZ-7的壳孢子存活率和假根发生率分别比WT提高了34%和35%;在8和5盐度组,YZ-7的壳孢子存活率、分裂率及假根发生率分别比WT提高了65%、32%和62%,以及137%、80%和154%;在3盐度组,YZ-7的壳孢子存活率和分裂率分别比WT提高了458%和171%,其中约44.9%的YZ-7壳孢子萌发体能形成假根,而WT的壳孢子萌发体基本上不长假根。在26盐度中培养35d后的F1叶状体再分别在26、15、8、5和3盐度下培养30d,YZ-7叶状体的特定生长率分别为WT的1.7、1.9、1.5、1.6和1.6倍,绝对生长率分别是WT的3.4、4.1、1.8、2.0和1.6倍。此外,YZ-7叶状体的叶绿素荧光活性(PSⅡ最大光量子产量、实际光量子产量)及三种主要光合色素(叶绿素a、藻红蛋白和藻蓝蛋白)的含量也明显高于WT。上述结果证实,坛紫菜选育品系YZ-7是一个耐低盐且生长快的优良品系,其优良性状可稳定传递给下一代,有望被培育成适宜栽培的新品种。 相似文献
15.
近些年来随着生境的破坏其分布面积急遽下降,较大面积连续分布的海草床已经非常少见。本研究首次将声呐探测技术应用到海草床时空分布特征的相关研究中,在河北唐山乐亭-曹妃甸沿海发现目前中国面积最大的鳗草(Zostera marina)海草床,海草床面积高达29.17 km~2,绘制了鳗草分布图和水深分布图,并对鳗草生物量和茎枝高度等基本生物学指标进行了调查。该发现极大丰富了中国海草数据库,并为鳗草的深入研究及保护提供了得天独厚的实验基地,也为周边海洋牧场的构建打下良好的基础。 相似文献
16.
鳗草(ZosteramarinaL.)广布于北半球温带浅海海域,其形成的鳗草床具有重要的生态价值。近些年来,我国黄渤海海域鳗草退化严重,较大面积、连续分布的海草床已经非常少见。在渤海兴城-觉华岛海域发现较大面积的海草床,可以作为渤海沿海海草床的典型代表。基于此,2018年5月、9月、11月和2019年3月对该海草床进行了初步调查,探究了渤海兴城-觉华岛海草床鳗草种群补充等生态特征,分析了海草床生境的主要威胁,并提出了对海草床进行有效保护和科学管理的相关建议。结果表明:渤海兴城-觉华岛海草床总面积为791.61ha,海草种类为鳗草和日本鳗草(Z.japonica),以鳗草为优势种,日本鳗草极少且呈斑块状分布;鳗草生物量在2018年5月达到最大值(1241.22—1632.64g/m2);鳗草叶片碳、氮、磷元素含量分别为35.35%—36.57%、1.89%—3.35%、0.14%—0.48%;鳗草海草床以无性繁殖为主要补充方式,有性繁殖补充比例平均仅为1.92%,明显低于国内其他鳗草草床,具有鲜明的独特性;该海草床主要受围填海、捕蛤、围网捕鱼等人类活动的严重影响,并致使海草床边缘区域呈现斑块化趋势。建议对这片珍贵的海草床加以保护和修复。 相似文献
17.
山东荣成天鹅湖海草场大型底栖贝类时空分布研究 总被引:1,自引:1,他引:0
为了了解天鹅湖不同微生境条件下底栖贝类的群落结构及时空分布特征,于2013年12月至2014年11月,对天鹅湖矮大叶藻区、空白区、大叶藻区边缘及其内部的底栖贝类和环境特征进行了调查。共发现15种大型底栖贝类,隶属14科15属;贝类种类组成、分布密度、生物量以及物种多样性指数在4种生境中差异显著,但均无明显的季节变化。空白区域中贝类总密度和单位面积生物量最高,大叶藻区内部最低,但矮大叶藻区和大叶藻区内部多样性指数较高。大叶藻区内部的贝类以腹足类锈凹螺、日本月华螺、刺绣翼螺等刮食者为主,而双壳贝类则更倾向于选择无海草覆盖的空白区或者海草较为稀疏的草场边缘。综合分析表明,天鹅湖底栖贝类的分布和多样性受底质特征和海草覆盖影响最为显著,同时与水深密切相关。 相似文献
18.
Florence Mamboya Thomas J. Lyimo Tommy Landberg Mats Bjrk 《Estuarine, Coastal and Shelf Science》2009,84(3):326-330
The influence of salinity on growth and Cu uptake in the green macroalga Ulva reticulata collected from the intertidal area in the Western Indian Ocean was studied under controlled laboratory conditions. Exposure concentrations ranged from 5 to 500 μg Cu l−1 at five salinities (ranging 20–40). The accumulation of Cu increased with decreasing salinity, so that the uptake at 500 μg Cu l−1 was approximately 2.7, 2.4 and 2.0 times higher at salinities of 20, 25, and 30 respectively, than uptake at salinity of 35, and with uptake being lowest at salinity of 40. Ulva maintained a positive growth rate over the whole salinity range (20–40), with highest rates at salinity of 35. When exposing to Cu at low salinities (20 and 25), the growth rate of Ulva was strongly inhibited suggesting an increase in toxicity of Cu with decreasing salinity. EC50 and NOEC increased with increase in salinity, implying a reduced Cu toxicity at high salinities. It was concluded that salinity needs to be considered when using macroalgae, such as U. reticulata, as a bioindicator of heavy metals in areas with heavy rainfall, underground fresh water intrusion or in estuaries, as they might accumulate more metals and be more negatively affected. 相似文献
19.
A comparative study of the photosynthetic activity among three temperate seagrass species in Northern Japan 总被引:1,自引:0,他引:1
The photosynthetic activity of Zostera marina, Zostera asiatica and Phyllospadix iwatensis shoots from populations of Hokkaido (Northern Japan) was determined using the pulse amplitude modulated (PAM) fluorometer. Several fluorescence parameters were measured as a function of irradiance and leaf age: electron transport rate (ETR), quantum yield, photochemical quenching (qP) and non‐photochemical quenching (NPQ). The leaf age determined by the leaf position in the shoot bundle strongly influenced the photosynthetic activity of Z. marina, Z. asiatica and P. iwatensis. Young leaves had the maximum electron transport rate (Zm: Leaf 1 = 15.7, Leaf 2 = 16.3; Za: Leaf 1 = 13.0, Leaf 2 = 12.2; and Pi: Leaf 1 = 12.5, Leaf 2 = 11.7) and showed higher photoprotection (NPQ) than old leaves. Among the studied seagrass species, Z. marina had the highest photosynthetic activity (ETRmax = 15.3), in accordance with the highest production in the field in comparison with the other two seagrass species. The PAM fluorometry technique showed to be effective in determining intraspecific (among‐leaves) and interspecific (among‐species) variation in seagrass photosynthetic activity. 相似文献