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81.
Significant variations in four biological measures of water quality with stream order and river basin were demonstrated for streams of the Black and Osage river basins of Missouri. Water quality criteria specific for each order and basin were then developed.Benthic macroinvertebrates from springs and stream orders 3–8 in the two river basins were sampled quarterly for one year with riffle nets and artificial substrate samplers. A total of 548 samples were taken at 137 stations. The average annual macroinvertebrate density, index of diversity, number of taxa, and number of mayfly and stonefly taxa were determined for each station. These measures showed significant differences (p < 0.05) across stream order within and between the two river basins. Total taxa, total mayfly and stonefly taxa, and diversity were highest in orders 4 and 5 with decreased values in lower and higher stream orders. Maximum organism densities occurred in intermediate order streams. These differences were attributed to the succession of physical changes from headwaters to mouth within each river and to the unique geomorphology of each catchment basin.Water quality criteria based on three of the four measures described above (with 95% confidence limits) were established for each stream order in each river basin. Criteria for the Osage River basin were then used to identify three streams in the basin affected by environmental disturbances (stream impoundment, channelization and sewage discharge). The use of order- and basin-specific criteria assures that the biological differences between streams caused by environmental disturbance can be distinguished from the natural biological differences between streams of different orders and drainages. 相似文献
82.
The carotenoid composition of 33 species of green algal lichens and 5 species of blue-green algal lichens was examined and
compared with that of the leaves of higher plants. As in higher plants, green algal lichen species which were found in both
shade and full sunlight exhibited higher levels of the carotenoids involved in photoprotective thermal energy dissipation
(zeaxanthin as well as the total xanthophyll cycle pool) in the sun than in the shade. This was particularly true when thalli
were moist during exposure to high light, or presumably became desiccated in full sunlight. However, the reverse trend in
the carotenoid composition of green algal lichens was also observed in those species which were found predominantly either
in the shade or in full sunlight. In this case sun-exposed lichens often possessed lower levels of zeaxanthin and of the components
of the xanthophyll cycle than lichens which were found in the shade. In contrast to higher plants, the lichens from all habitats
exhibited a relatively high ratio of carotenoids to chlorophylls (more characteristic of sun leaves), very low levels of α-carotene
(similar to that found in sun leaves), and a level of β-carotene similar to that found in shade leaves. Zeaxanthin, but not
the expoxides of the xanthophyll cycle, was also frequently found in blue-green algal lichens. A trend for increasing levels
of zeaxanthin with increasing growth light regime was observed inPeltigera rufescens, the species which was found to occur over the widest range of light environments. The level of zeaxanthin per chlorophylla in these blue-green algal lichens was in a range similar to that per chlorophylla+b in green algal lichens. However, zeaxanthin was also absent in one species,Collema cristatum, in full sunlight. Thus, the zeaxanthin content of the blue-green algal lichens can be similar to that of higher plants,
or it can be rather dissimilar, as was also the case in the green algal lichen species. The presence of large amounts of ketocarotenoids
in blue-green algal lichens is also noteworthy. 相似文献
83.
Gene E. Likens Donald C. Buso Brian K. Dresser Emily S. Bernhardt Robert O. Hall Jr Kate H. Macneale Scott W. Bailey 《Restoration Ecology》2004,12(3):419-428
Ground and pelletized Wollastonite (Wo; CaSiO3) was added to a 50‐m reach of an anthropogenically acidified stream within the Hubbard Brook Experimental Forest, New Hampshire, to evaluate its buffering and restoration potential. The Wo was highly effective in raising the pH, acid‐neutralizing capacity (ANC), dissolved inorganic carbon (DIC), and Ca2+ concentrations of the stream water, but during the short duration of the experiment had no discernable effect on the stream biota. After initial, spike‐like fluctuations in pH and concentrations of ANC, DIC, and Ca2+, the relatively slow dissolution rates of the Wo dampened extreme concentrations and contributed to relatively long‐lasting (4 months) amelioration of streamwater acidity. Changes in concentrations of Ca2+, dissolved Si, ANC, and DIC were inversely related to streamflow. After several high, stream‐discharge events, concentrations quickly and consistently returned to pre‐event conditions. 相似文献
84.
85.
Temd R. Deason Phillip E. Ryals Joseph C. O'Kelley Kenneth W. Bullock 《Journal of phycology》1979,15(4):452-457
Observations on the ultrastructure of Friedmannia israelensis Chantanachat & Bold revealed the presence of a phycoplast and zoospores with cruciate rootlets. During mitosis, the nuclear envelope partially disintegrates and the basal bodies remain at the cell surface on either side of the developing cleavage furrow. The events during mitosis and cleavage in Friedmannia resemble those reported in the other green algae, Platymonas and Pleurastrum. 相似文献
86.
R. Jan Stevenson Steven T. Rier Catherine M. Riseng Richard E. Schultz Michael J. Wiley 《Hydrobiologia》2006,561(1):149-165
Responses of stream algal biomass to nutrient enrichment were studied in two regions where differences in hydrologic variability
cause great differences in herbivory. Around northwestern Kentucky (KY) hydrologic variability constrains invertebrate biomass
and their effects on algae, but hydrologic stability in Michigan (MI) streams permits accrual of high herbivore densities
and herbivory of benthic algae. Multiple indicators of algal biomass and nutrient availability were measured in 104 streams
with repeated sampling at each site over a 2−month period. Many measures of algal biomass and nutrient availability were positively
correlated in both regions, however the amount of variation explained varied with measures of biomass and nutrient concentration
and with region. Indicators of diatom biomass were higher in KY than MI, but were not related to nutrient concentrations in
either region. Chl a and % area of substratum covered by Cladophora were positively correlated to nutrient concentrations in both regions. Cladophora responded significantly more to nutrients in MI than KY. Total phosphorus (TP) and total nitrogen (TN) explained similar
amounts of variation in algal biomass, and not significantly more variation in biomass than dissolved nutrient concentrations.
Low N:P ratios in the benthic algae indicated N as well as P may be limiting their accrual. Most observed responses in benthic
algal biomass occurred in nutrient concentrations between 10 and 30 μg TP l−1 and between 400 and 1000 μg TN l−1. 相似文献
87.
The utility of shallow water bodies in urban environments is frequently compromised either by dense beds of submerged plants
or cyanobacterial blooms associated with nutrient enrichment. Although submerged plants are often harvested to facilitate
recreational uses, this activity may alter the phytoplankton community, which in turn, also may restrict the use of the lake.
We tested whether (i) plant harvesting reduced the abundance of flagellate algae and increased the abundance of cyanobacteria,
and (ii) whether increasing levels of nutrient enrichment caused shifts in the dominance of heterocytous cyanobacteria, non-heterocytous
cyanobacteria and Chlorophyta, in a shallow urban lake in Southern Australia as has been observed for shallow Danish lakes
in previous studies. These predictions were tested with large (3000 l), replicated mesocosms in a warm, highly productive,
shallow lake densely colonised by the submerged angiosperm, Vallisnaria americana Michaux. The heterokont algae, Chlorophyta, Cyanobacteria and Cryptophyta were the most numerous algal divisions in the lake.
The Euglenophyta, although uncommon in early summer, became more abundant towards the end of summer. The Dinophyta and Charophyta
were rare. The abundance of the heterokont algae and Euglenophyta was significantly reduced by plant harvesting even after
plants had partially re-established 18 weeks after initial harvesting. The decline in the Euglenophyta in response to plant
harvesting is consistent with earlier findings, that the relative abundance of flagellate algae tends to be greater in the
presence of submerged plants. Contrary to our prediction, we found that the Cyanobacteria did not increase in response to
plant harvesting, however the response may be altered under higher nutrient levels. Algal responses to nutrient enrichment
in the presence of dense V. americana plants generally followed the patterns observed in shallow Danish lakes despite the large differences in climatic conditions.
Both studies found that the abundance of heterocytous cyanobacteria declined at higher levels of nutrient enrichment, whereas
non-heterocytous cyanobacteria and chlorophytes increased. 相似文献
88.
Nobuko Tuno Andrew K. Githeko Takeshi Nakayama Noboru Minakawa Masahiro Takagi Guiyun Yan 《Ecological Research》2006,21(3):476-482
Algae are important food resources of the larvae of the African malaria vectors, Anopheles gambiae Giles and Anopheles arabiensis Patton (Anopheles gambiae sensu lato), and other zooplankton, but empirical evidence remains meager about the agal flora in ephemeral water bodies.
The animals present in natural aquatic habitats in western Kenya were sampled from July to November 2002 to study abiotic
and biotic environmental factors determining A. gambiae sl larval abundance. The five highest concentrations of third and fourth instars and pupae (hereafter referred to as old-stage
larvae) were sampled in conjunction with the unicellular epizoic green algae, Rhopalosolen species (Chlorophyta; Chlorophyceae). Canonical correspondence analysis revealed that the presence of Rhopalosolen species was the most important determinant of the animal assemblage. The density of old-stage A. gambiae sl larvae was positively correlated with the presence of Rhopalosolen species, but the density of first and second instars of A. gambiae sl was not. The water bodies with Rhopalosolen sp. yielded larger mosquitoes in spite of the higher density of larvae. We demonstrated that the productivity of water bodies
in terms of the larvae of malaria vectors can differ in magnitude depending on the agal flora. We discuss phytoplankton as
a regulator of mosquito larval populations. 相似文献
89.
90.
Seaweeds emerge as promising third-generation renewable for sustainable bioproduction. In the present work, we valorized brown seaweed to produce l-lysine, the world's leading feed amino acid, using Corynebacterium glutamicum, which was streamlined by systems metabolic engineering. The mutant C. glutamicum SEA-1 served as a starting point for development because it produced small amounts of l-lysine from mannitol, a major seaweed sugar, because of the deletion of its arabitol repressor AtlR and its engineered l-lysine pathway. Starting from SEA-1, we systematically optimized the microbe to redirect excess NADH, formed on the sugar alcohol, towards NADPH, required for l-lysine synthesis. The mannitol dehydrogenase variant MtlD D75A, inspired by 3D protein homology modelling, partly generated NADPH during the oxidation of mannitol to fructose, leading to a 70% increased l-lysine yield in strain SEA-2C. Several rounds of strain engineering further increased NADPH supply and l-lysine production. The best strain, SEA-7, overexpressed the membrane-bound transhydrogenase pntAB together with codon-optimized gapN, encoding NADPH-dependent glyceraldehyde 3-phosphate dehydrogenase, and mak, encoding fructokinase. In a fed-batch process, SEA-7 produced 76 g L−1 l-lysine from mannitol at a yield of 0.26 mol mol−1 and a maximum productivity of 2.1 g L−1 h−1. Finally, SEA-7 was integrated into seaweed valorization cascades. Aqua-cultured Laminaria digitata, a major seaweed for commercial alginate, was extracted and hydrolyzed enzymatically, followed by recovery and clean-up of pure alginate gum. The residual sugar-based mixture was converted to l-lysine at a yield of 0.27 C-mol C-mol−1 using SEA-7. Second, stems of the wild-harvested seaweed Durvillaea antarctica, obtained as waste during commercial processing of the blades for human consumption, were extracted using acid treatment. Fermentation of the hydrolysate using SEA-7 provided l-lysine at a yield of 0.40 C-mol C-mol−1. Our findings enable improvement of the efficiency of seaweed biorefineries using tailor-made C. glutamicum strains. 相似文献