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Unicellular gametophytes ofUndaria pinnatifida (Harv.) Sur. were isolated in Qingdao, P. R. China in April 1993 and in Tokushima, southern Japan in March 1995. Different
intraspecific crossings by using unicellular male and female gametophytes were successfully undertaken in Sept. of 1995 in
Qingdao. Sporophytes were transplanted to two different locations for open sea cultivation. One was at Zhanqiao (ZQ) Bay where
the water current was slower than that of another location—Taipingjiao(TPJ). A total of 218 adult sporophytes were harvested
on January 12 and 18 from TPJ and ZQ respectively. For eacn combination, 10 sporophytes were cultivated. Analysis of the morphological
characteristics of adult sporophytes indicated that the longest length between two bases of the serration of pinnate blades
(W2) is a morphological characteristic that can be transferred from the parent plant to the next generations regardless of
environmental variations. There was evidence that W2 was apparently determined by sex-linked factors, i.e., by male parental
gametophyte. Sporophytes from certain crossing combinations showed more vigorous growth than those from other crossing combinations.
It is therefore possible to select gametophyte strains which can be used as parental gametophytes for the seedling production
of sporophytes with more vigorous growth within shorter cultivation period. The morphology of hybrids from a Qingdao strain
and a Tokushima cultivated strain resembled that of both parental plants in frond features (wrinkled or smooth) and W2. Sporophyll
formation also varied with strains. The fact that adult sporophytes resulting from the same crossing combinations have identical
morphological characteristics under the same environmental conditions indicates the possibility of a new way to select strains
which are expected to be ideal for commerical production by purposely selecting, propagating, and seeding unicellular gametophytes
for sporeling production through freeliving techniques of gametophytes.
Project 39400102 supported by NSFC, also supported by National Climbing Plan B (PD-B642); and Bioengineering Center, SSTC. 相似文献
2.
褐藻中活性物质研究概况 总被引:2,自引:0,他引:2
对近年来从褐藻中发现的有活性的多糖类、脂类、含氮类、萜类、甾醇类、类胡萝卜素、酶类、激素及其他活性物质进行综述。 相似文献
3.
The purpose of this study was to investigate the concentration levels of heavy metals in different species of the main three
marine algal divisions from the Gulf of Aden coastal waters, Yemen. The divisions included Chlorophyta—green plants (Halimeda tuna, Rhizoclonium kochiamum, Caldophora koiei, Enteromorpha compressa, and Caulerpa racemosa species), Phaeophyta—brown seaweeds (Padina boryana, Turbinaria elatensis, Sargassum binderi, Cystoseira myrica, and Sargassum boveanum species), and Rhodophyta—red seaweeds (Hypnea cornuta, Champia parvula, Galaxaura marginate, Laurencia paniculata, Gracilaria foliifere, and species). The heavy metals, which included cadmium (Cd), cobalt (Co), copper (Cu), chromium (Cr), Iron (Fe), manganese
(Mn), nickel (Ni), lead (Pb), zinc (Zn), and vanadium (V) were measured by Atomic Absorption Spectrophotometer (AAs). The
concentrations of heavy metals in all algal species are in the order of Fe >> Cu > Mn > Cr > Zn > Ni > Pb > Cd > V > Co. The
results also showed that the uptake of heavy metals by different marine algal divisions was in the order of Chlorophyta > Phaeophyta > Rhodophyta.
These heavy metals were several order of magnitude higher than the concentrations of the same metals in seawater. This indicates
that marine alga progressively uptake heavy metals from seawater. 相似文献
4.
INTRASPECIFIC CROSSINGS OF UNDARIA PINNATIFIDA (HARV.) SUR.-A POSSIBLE TIME-SAVING WAY OF STRAIN SELECTION 总被引:1,自引:0,他引:1
ImODUcrONUndariaPinnatofdapearv.)Sur.inJapanisdividedintoanorthemtypewithdeeplydividedpinnatebladesandasoutherntypewithlighhydividedpinnateblades(Saito,l972,0hno,l994).Butinrmtyears,themutualtIansplantationsbeweensouthandnorthtendedtornakethecIJltivatalsporophpebeudrirminrnorphology.InChina,UndariaisaIsodhadedintoanortherntypeandasoutherntypemeng,l936).Theques-tionofWhetherthemorphologicalcharaedthaofdtaphentypesaredetenninedbygeneticfactorsoraresbolyinflUenaxlbyenvbonmentalfactorsdrewt… 相似文献
5.
Copper and iron concentrations in three brown algae, Ascophyllum nodosum, Fucus vesiculosus and Laminaria digitata (and additionally Mn in L. digitata) from the Irish west coast were determined using flame atomic absorption spectrophotometry. Metal concentrations in the three species were indicative of prevailing bioavailable metal concentrations in situ but varied greatly between functional tissue parts, between sites and over time. Cu concentrations in actively growing tips of A. nodosum decreased over a 4-month period during autumn/winter, while Fe concentrations increased. Both Fe and Cu concentrations in different thallus sections of A. nodosum and F. vesiculosus increased with increasing age of thallus part in a clean site, but there was no consistent trend for F. vesiculosus from an industrialized site. Within sites, concentrations of all Cu and Fe were similar in both fucoids, but concentrations at the industrialized site were about twice as high as at the pristine site. In L. digitata, all three metals were highest in holdfasts, but had distinctly different distribution patterns in stipes and blade sections, which were most likely related to growth pattern and tissue function. Fe was lowest in meristematic and young blade regions, suggesting small-scale Fe limitation in actively growing tissue. Mn concentrations were higher in distal blade sections than in stipes, and Cu concentrations were highest in meristematic and young thallus parts. 相似文献
6.
Edward A. Drew John F. Ireland Colin Muir William A. A. Robertson John D. Robinson 《Marine Ecology》1982,3(4):335-355
Abstract. The population of Laminaria ochroleuca in the current swept Straits of Messina was investigated regarding its age structure and photosynthesis. Age structure appears to be determined by sporadic recruitment and the limitation of growth due to peak currents decapitating older plants, which is corroborated by drag force resistance calculations. The calculation of a carbon budget from measurements of photosynthesis and dark respiration both in the laboratory and in situ shows that L. ochroleuca cannot satisfy its carbon demands for growth and respiration at 50 m depth and no satisfactory explanation can be given for its rapid growth between 50 and 100 m. 相似文献
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