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1 INTRODUCTION Pit connection is an important feature in Rhodophyta and significant in algal phylogeny. Various documents have illustrated the existence of pit-connection in red alga previously (Migita, 1967; Ramus 1969a, b; Bourne et al., 1970; Lee and F… 相似文献
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基于第二代测序技术的条斑紫菜(Pyropia yezoensis)贝壳丝状体附生菌群研究 总被引:1,自引:0,他引:1
条斑紫菜(Pyropia yezoensis)贝壳丝状体黄斑病给育苗产业造成危害,但目前对健康状态下的菌群结构及其发病后变化仍缺乏认识。本研究基于第二代测序技术和16S r RNA序列分析,对健康和患病丝状体的细菌组成与变化进行比较。测序共产生1.6Gb配对末端序列,获得了第一个高通量的条斑紫菜贝壳丝状体细菌群落数据集。通过数据分析共识别出7,833种可操作分类单元(operational taxonomic units,OTUs),比对确定为18个细菌门。相对于健康样本,黄斑病丝状体样本的微生物多样性显著增加。主坐标分析和非加权组平均法(unweighted pair group method using arithmetic average,UPGMA)聚类均将健康和黄斑病丝状体分成不同的组,且健康组样本间的距离明显小于黄斑病组。上述结果说明,健康贝壳丝状体保持着相似的微生物群落结构,而患病后的丝状体则发生了不同的变化;健康样本和黄斑病样本组间差异显著的细菌属有39个,其中29个在健康样本中的相对丰度明显高于病患组样本。本研究从菌群生态角度分析了健康贝壳丝状体微生物菌群结构、发病后菌群的变化及其对丝状体生长的潜在作用,为丝状体病害的检测和预防提供有价值的信息。 相似文献
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本实验以坛紫菜自由丝状体为材料,研究不同培养方式(静置、摇床、通气)和换水频率(5d、7d、10d、20d)对丝状体生长及藻胆蛋白(PE、PC)含量变化的影响。研究结果表明:坛紫菜自由丝状体在摇床培养条件下生长较好,特定生长速率可达10.832 7%~10.891 5%;摇床培养下的丝状体PE含量相对静置培养的较高一些,通气培养的相对较低,最高为36.816 8mg/g;静置条件下培养的丝状体PC含量最高,摇床培养次之,通气培养最低,最低为1.082 4mg/g。相同培养方式下,换水频率对丝状体特定生长速率影响不大;除通气培养外,换水频率20d其PE、PC含量较高。方差分析结果表明:实验范围内的培养方式及换水频率对丝状体特定生长速率大小、PE和PC含量不存在交互作用。本文实验结果对坛紫菜自由丝状体产业化应用于食品加工、色素提取等产业提供了实验理论和依据。 相似文献
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丝状藻体是紫菜生活史中的重要阶段,其生长增殖与环境条件密切相关.本研究考察了与坛紫菜丝状藻体生长增殖相关的多个影响因子,探讨了可促进坛紫菜丝状藻体生长、达到生长速率快的优化调控培养条件.具体操作实施过程为:初始丝状藻体来自成熟紫菜叶状体的果孢子释放,基于8因子3水平的正交实验设计方案[采用正交表L27(313)],确定了丝状藻体生长对多个环境因子的响应以及优化的调控培养条件.结果表明,除开pH、复合维生素浓度和NaHCO3浓度外,其他因子对丝状藻体生长均有显著的影响(p≤0.043 8).获得的优化调控培养条件为:温度18℃、光强27μmol/m2·s-1、盐度25、pH值8.5、复合维生素浓度15μg/dm3、NaHCO3浓度2 mg/dm3、每天光照时数18 h、营养液浓度为f培养介质.优化调控培养条件下的丝状藻体生长速率高达12.07%,平均值±标准偏差SD为(10.70±0.88)%/d. 相似文献
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不同品系坛紫菜自由丝状体在异常条件下生长发育的比较 总被引:9,自引:1,他引:9
以坛紫菜的4个品系(A、B、C、D)的丝状体为材料,探讨和比较了各品系在异常条件下,即高温(30℃、32℃)、高盐(盐度35、38)、低盐(盐度10、15)、低氮磷含量(N:0.0252mg/dm3;P:0.0041mg/dm3)的生长发育状况,筛选出抗逆的品系实验结果表明:(1)在高温32℃下,品系C生长较好,其瞬时生长率为0.40,表现出较强的耐高温特性;(2)在盐度38的海水中,品系A较能适应,藻色正常,瞬时生长率高达3.66,较耐高盐;(3)在盐度10的海水中,品系D的瞬时生长率为0.46,且形成了大量的、正常的孢子囊枝;(4)在低氮、磷的环境下,品系D适应性较强,其瞬时生长率为2.27,部分藻丝颜色恢复,并形成较多的、正常的孢子囊枝. 相似文献
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Results of the experiment of northward transplantation ofPorphyra haitanensis showed that intercrop ofP. haitanensis with Bay Scallop is feasible because the growth duration of both of them is about the same in August–December.
Full use of cultivating area, lowering its cost and increasing its product per unit area as well as improving the ecological
environment are realized during intercrop.
Contribution No. 2152 from the Institute of Oceanology, Academia Sinica. 相似文献
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This Mar. 1993 to Aug. 1994 study on suspended conchocelis ofPorphyra haitanensis showed that there were three patterns for development of vegetative filaments: filaments to filaments by “budding”; filaments
to sporangial branchlets by “budding”, or cell swelling. There were also three patterms for sporangial branchlet development:
vegetatively propagating, changing into conchospores, or dying. Each developmental stage had one or more different developmental
directions between vegetative filaments and sporangial branchlets. Developments from conchosporangial branchlets to conchospores
were sequential and irreversible. Although sporangial branchlets formed at 29°C could give rise to filaments, they could not
propagate as healthily under the same conditions as those formed at 25°C did. Probably the crucial period of plant cell differentiation
is in the late stage of sporangial branchlets. In line with the developmental directions of different stages, the authors
regulated the development of conchocelis to get ideal different developmental stages materials to obtain very developmentally
homogeneous stages, including filaments and sporangial branchlets.
Contribution No 3283 from the Institute of Oceanology, Chinese Academy of Sciences.
Study supported by the Climbing Project B PD-B6-4-2 of the State Science and Technology Commission of China. 相似文献
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INTRODUCTIONAxeniccultureofalgaeisrequiredformanyexperimentalstudiesandcellsuspensioncultures,andisessentialforgainingunderstandingoftherelationshipbetweenthealgaeandtheirepiphyticfloraandmicroorganisms,andforstudyingthegrowthanddevelopmentofalgae (Tat… 相似文献
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Free-living conchocelis ofPorphyra yezoensis Ueda (Bangiales, Rhodophyta) were treated with60Co-γ rays of different doses (ranging from 100 Gy to 1000 Gy) to induce mutation. Most of the conchocelis maintained the capability
of penetrating into shells, growing and forming colonies in shells, but their vitality was seriously impaired by the irradiation
of γ-rays. A few conchocelis pigments were mutagenized directly into different color pigment mutants whose progeny-conchospores
and foliose thalli had the same colors. However, some irradiated conchocelis did not show the change in color at the conchocelis
stage. The pigment mutation could be observed only after the conchospores of these conchocelis had germinated into young foliose
thalli. Irradiation of low dose (100 Gy) promoted the growth of thallus and many with altered morphology were observed. Conchospores
of the irradiated conchocelis attached to the culture nets were cultured in the sea, and growth of these progenies was observed
and measured. 相似文献
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IAA 3-Indolylacetic acid, NAA a-Naphthylacetic acid and cytokinins in PESI culture medium were used in a study on the effects
of plant hormones on the growth of free-living conchocelis ofPorphyra yezoensis which showed that its growth in medium with cytokinins, IAA and NAA was more rapid than that in medium with non—phytohormones;
that the optimal concentrations for promoting growth were 10 μg/L for IAA and ZA (Zeatin), and 0.1 μg/L for BA 6-Benzyl amino
purine and KIN 6-Furfurylamino- purine. Mix use of NAA, IAA and cytokinins, NAA/ZA 1–1000/1 μg/L, NAA/BA 10/1-1000 μg/L, NAA/KIN
1/1-1000 μg/L promoted growth. IAA/ZA 0.1-1/0.1-1 μg/L; IAA/BA 0.1-1/0.1-10 μg/L IAA/KIN 1/0.1-1000 μg/L also promoted growth.
Contribution No. 2335 from the Institute of Oceanology, Chinese Academy of Sciences. Contribution No. 94 from the Experimental
Marine Biology Lab Qingdao, China.
The research was supported by a grant from the Chinese Academy of Sciences. 相似文献