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1.
A. G. Zatsepin P. O. Zavialov V. V. Kremenetskiy S. G. Poyarkov D. M. Soloviev 《Oceanology》2010,50(5):657-667
An area of about 40000 km2 of desalinated upper layer waters with a salinity of less than 25 psu was found during cruise 54 of the R/V Akademik Mstislav Keldysh in the southwestern part of the Kara Sea (September 2007). Close to the boundary of this region located near the eastern
coast of Novaya Zemlya, the salinity was less than 16 psu. The thickness of the desalinated layer was about 10 m. The results
of the chemical analysis revealed that the observed desalination of the sea water was produced, first of all, by the Yenisei
River, while the contribution of the Ob River’s waters was secondary. However, the most desalinated region near the eastern
coast of Novaya Zemlya was separated from the Ob-Yenisei estuary and corresponded to a quasi-isolated lens. It is likely that
the formation of this lens, as well as the major part of the desalinated upper layer waters, occurred in June when the flood
of the Yenisei was maximal, while the further drift of the desalinated waters to the west of the Ob-Yenisei estuary was forced
by the prevailing northern wind. The additional desalination (by 2–3 psu and even more) of the upper layer waters near the
eastern coast of Novaya Zemlya might be related to the melting of the Novozemelskiy ice massif. The regularities of the temporal
evolution of the upper desalinated layer, as well as the influence of this layer on the hydrological structure and dynamics
of the southwestern Kara Sea, are discussed. 相似文献
2.
L. V. Ilyash L. S. Zhitina T. A. Belevich V. P. Shevchenko M. D. Kravchishina A. N. Pantyulin A. V. Tolstikov A. L. Chultsova 《Oceanology》2016,56(3):372-381
The species composition and biomass of phytoplankton, concentrations of chlorophyll a (Chl a) and nutrients, and accompanying hydrophysical conditions have been studied in the White Sea on July 6–11, 2009. The temperature of the surface water layer was lower than the multiyear average in July. Dinoflagellates dominated in the entire studied area; this was not the typical event for July. We suggest that domination of dinoflagellates was caused by low water temperature, when the nutrient regeneration rate was insufficient to support diatom growth. The abundance of microalgae and the structure of the phytoplankton community depended on the water structure. Variations in the phytoplankton community structure were caused not by substitution of specific species but rather by variability of the abundance of a single species, Heterocapsa triquetra. The highest phytoplankton biomass has been recorded in weakly stratified waters, where tidal mixing supplied the income of inorganic nutrients. The income of nutrients to the photic layer was limited in the stratified waters of Dvina Bay during the summer low-water period, so the phytoplankton abundance was low. We suggest that the lens of surface desalinated water presumably originated from the outlet of the Dvina River was registered in the central part of the White Sea. 相似文献
3.
V. M. Sergeeva I. N. Sukhanova E. I. Druzhkova S. A. Mosharov V. V. Kremenetskiy A. A. Poluhin 《Oceanology》2016,56(1):107-113
The phytoplankton community and its distribution were investigated in the eastern branch of the St. Anna Trough and over the adjacent Kara Sea shelf in September 2011 and in August 2014. The spatial and seasonal differences in the phytoplankton structure were analyzed in connection with ice melting and changes in the temperature, salinity, and biogenic regime. Four 4 zones were defined: the Kara Sea shelf, the upper part of the St. Anna Trough slope, the lower part of the St. Anna Trough slope, and its deep part. It was shown that over the Kara Sea shelf where riverine runoff influence was observed, the phytoplankton community differs from the community of the St. Anna Trough in both investigated periods: in September and August. Rearrangement of the phytoplankton community was observed in the frontal zone associated with the upper part of the slope in September of 2011. The main features of this rearrangement were a change in dominant species composition and a 1.5–2-fold increase in the number and biomass of algae. Over the lower part of the slope and deep area of the St. Anna Trough in August 2014 and September 2011, the phytoplankton community was at different successive stages: in August, at the late spring and summer stage, and in September, at the summer–autumn stage. 相似文献
4.
M. V. Flint T. N. Semenova E. G. Arashkevich I. N. Sukhanova V. I. Gagarin V. V. Kremenetskiy M. A. Pivovarov K. A. Soloviev 《Oceanology》2010,50(5):766-779
The studies were carried out on September 27–30, 2007, in the area of the Ob estuarine frontal zone and over the adjacent
inner Kara Sea shelf. Based upon the latitudinal changes in the salinity, the 100 nautical mile wide estuarine frontal zone
was marked out. The frontal zone was inhabited by a specific zooplankton community dominated by species that occurred outside
the frontal zone in only minor amounts. The biomass of the mesozooplankton averaging 984 mg/m3 in the frontal zone exceeded by 1.5 and 6 times the corresponding values in the inner desalinated area of the estuary and
the adjacent areas of the Kara Sea shelf. At the inner southern periphery of the frontal zone, at maximal latitudinal salinity
gradients (>2 psu per mile), the maximal development of the mesoplankton with the mean biomass for the water column of 3.1
g/m3 (37 g/m2) and up to 5.8 g/m3 in the subpycnocline layer was observed. The latitudinal extension of the biomass in the maximum zone did not exceed 10 miles.
More than 90% of the maximum was composed of herbivorous zooplankton with the strong domination of the copepod Limnocalanus macrurus. The daily consumption within the zooplankton maximum area was estimated at 820 mgC/m2 per day. This value exceeds by two orders of magnitude the local primary production. At that level of consumption, the available
phytoplankton biomass was consumed by grazers in less than 8 hours (!). A zooplankton aggregation at the southern periphery
of the estuarine front exists due to the advection of phytoplankton from the adjacent river zone. The aggregation forms a
natural pelagic biofilter where new allochthonous organic matter delivered by the river flow is accumulated and high secondary
production is formed on its basis. An anomalously high concentration of planktic predatory Parasagitta elegans with biomass of over 1 g/m3 (46% of the total zooplankton biomass) was associated with the outer northern periphery of the estuarine frontal zone. 相似文献
5.
Structure of the phytoplankton communities and primary production in the Ob River estuary and over the adjacent Kara Sea shelf 总被引:1,自引:0,他引:1
The material was collected in the Ob River estuary and over the adjacent shallow Kara Sea shelf between 71°14′0 and 75°33′0N
at the end of September 2007. Latitudinal zoning in the phytoplankton distribution was demonstrated; this zoning was determined
by the changes in the salinity and concentration of nutrients. Characteristic of the phytocenosis in the southern desalinated
zone composed of freshwater species of diatom and green algae were the high population density (1.5 × 106 cells/l), biomass (210 μgC/l), chlorophyll concentration (4.5 μg/l), and uniform distribution in the water column. High primary
production (∼40 μgC/l/day) was recorded in the upper 1.5-m layer. The estuarine frontal zone located to the north contained
a halocline at a depth of 3–5 m. Freshwater species with low population density (2.5 × 105 cells/l), biomass (24 μgC/l), and chlorophyll concentration (1.5 μg/l) dominated above the halocline. Marine diatom algae,
dinoflagellates, and autotrophic flagellates formed a considerable part of the phytocenosis below the halocline; the community
characteristics were twofold lower as compared with the upper layer. The maximal values of the primary production (∼10 μgC/l
per day) were recorded in the upper 1.5-m layer. The phytocenosis in the seaward zone was formed by marine alga species and
was considerably poorer as compared with the frontal zone. The assimilation numbers at the end of the vegetation season in
the overall studied area were low, amounting to 0.4–1.0 μgC/μgChl/h in the upper layer and 0.03–0.1 μgC/μgChl/h under the
pycnocline. 相似文献
6.
Lee Minji Kim Jin Ho Kim Yun-Bae Park Chan Hong Shin Kyoungsoon Baek Seung Ho 《海洋学报(英文版)》2020,39(2):107-122
The East Sea(Sea of Japan)is a marginal,semi-closed sea in the northwestern Pacific.The Ulleung Basin area,which is located near the subpolar front of the East Sea,is known to have high primary production and good fisheries in spring season.After episodic wind-driven events during the spring of 2017,horizontal and vertical profiles of physical chemical biological factors were investigated at 29 stations located in the Ulleung Basin area.In addition,growth responses of phytoplankton communities to nutrient additions were evaluated by bioassay experiments to understand the fluctuation of phytoplankton biomass.Because of strong northwestern wind,phytoplankton biomass was scattered and upwelling phenomenon might be suppressed in this season.The phytoplankton abundances in the coastal stations were significantly higher than offshore and island stations.In contrast,the nutrient and chlorophyll a(Chl a)concentrations and the phytoplankton biomass were quite low in all locations.Bacillariophyceae was dominated group(>75.1%for coastal,40.0%for offshore and 43.6%for island stations).In the algal bioassays,the phytoplankton production was stimulated by N availability.The in vivo Chl a values in the+N and+NP treatments were significantly higher than the values in the control and the+P treatments.Based on the field survey,the higher nutrients in coastal waters affected the growth of diatom assemblages,however,little prosperity of phytoplankton was observed in the offshore waters despite the injection of sufficient nutrients in bioassay experiments.The growth of phytoplankton depended on the initial cell density.All of results indicated that a dominant northwestern wind led to a limited nutrients condition at euphotic layers,and the low level of biomass supply from the coasts resulted in low primary production.Both supplying nutrients and introducing phytoplankton through the currents are critical to maintain the high productivity in the Ulleung Basin area of the East Sea. 相似文献
7.
A. G. Zatsepin P. O. Zavialov V. I. Baranov V. V. Kremenetskiy A. A. Nedospasov S. G. Poyarkov V. V. Ocherednik 《Oceanology》2017,57(1):1-7
The paper describes a possible mechanism for the transformation of a desalinated water lens in the Kara Sea under the action of vertical turbulent mixing induced by wind. Using a simple one-dimensional model, we show that the strongest transformation occurs at the edge of the lens—its frontal zone, where the thickness of the desalinated layer is the smallest. Because of the strong (cubic) nonlinear dependence of the turbulent energy flux on the wind speed, significant transformation of the frontal zone of the lens occurs during storm events. A series of consecutive storms can cause horizontal lens fragmentation into several zones in which the salinity increases spasmodically towards the edge of the lens. 相似文献
8.
V. M. Sergeeva L. S. Zhitina S. A. Mosharov A. A. Nedospasov A. A. Polukhin 《Oceanology》2018,58(5):700-709
Phytoplankton community and its distribution were investigated in the south part of the Polar Front in the eastern Barents Sea in October 2014. Analysis of the spatial differences in the phytoplankton structure was performed in connection with changes of the temperature, salinity and biogenic regime. At the end of the growing season in the phytoplankton community was dominated by destruction processes and the concentration of nutrients in the upper mixed layer was higher than the limiting level. Coccolithophores (Emiliania huxleyi and Discosphaera cf. tubifer) dominanted over investigated area. The maximum values of abundance and biomass of coccolithophores reached 90.4 mln.cell/m3 and 30.8 mgC/m3, drawing up 82% of the total number and 93% of the total biomass of phytoplankton. Influence of transformed the waters of Atlantic origin was observed in the western part of the investigated area. The number of species in the phytoplankton community here was 1.5–2 times lower than in the eastern part of the occupied mostly by Barents Sea water. In the eastern part of the presence of large dinoflagellates Neoceratium spp. (Ceratium spp.) and Dinophysis spp., lower values of chlorophyll a concentration, a higher proportion of pheophytin in the amount of pigment chlorophyll + pheophytin, the high content of ammonia in the upper mixed layer showed that in this area the phytoplankton was at a later seasonal succession stage than the western part. 相似文献
9.
北黄海典型水域秋冬季浮游植物群落的昼夜变化 总被引:1,自引:0,他引:1
利用冬季(2007年1月)和秋季(2007年10月)在北黄海中部昼夜连续观测所获浮游植物样品,分析了浮游植物群落的昼夜变化.结果表明:浮游植物丰度在各层存在昼夜变化,冬季10~20 m层主要在白天出现高丰度,而20~30 m层和30~底层都是在夜间出现高丰度,冬季丰度垂直分布相对较均匀.秋季各层都主要在夜间出现高丰度,丰度垂直分布是下层水体明显比上层高.2个季节优势种昼夜组成都比较稳定.冬季优势种为具槽帕拉藻(Paralia sulcata),主要分布在下层水体.秋季罗氏角毛藻(Chaetoceros lauderi)和密连角毛藻(Chaetoceros densus)成为优势种,两者分别以下层和上层水体分布较多.冬季浮游植物群落多样性和均匀度昼夜变化都不明显,秋季0~10 m层和20~30 m层多样性和均匀度昼夜变化较明显.从季节变化来看,秋季多样性要高于冬季,均匀度的季节变化不明显. 相似文献
10.
The research was performed along a transect from the Yamal Peninsula coast towards the outer shelf of the southwestern part
of the Kara Sea in September 2007. 130 phytoplankton species have been identified, among which 63 were found in the area for
the first time. The total phytoplankton numbers varied within the range of 0.2 to 11.3 × 109 cells/m2, while biomass within the range of 43 to 1057 mgC/m2. A well pronounced cross-shelf zoning in the phytoplankton communities was ascertained. The inner shelf zone about 30 km
wide with depths down to 30 meters was characterized by the predominance of diatoms (up to 80% of the total algae numbers
and biomass). The second group by value was dinoflagellates. Seaward in the area of the depth increase from 30 to 140 m, the
zone of the Yamal Current was located, which was 40 km wide and notable for its active water dynamics. The total cell numbers
in the zone reached a maximum for the entire investigated area: up to 11.3 × 109 cells/m2. The leading group in the phytoplankton was autotrophic flagellates, whose share in the total numbers reached 56–82%. Further
than 70 km from the shore, the outer shelf zone was found with the water column rigidly stratified. The highest for the whole
area phytoplankton biomass was identified here (up to 1.06 gC/m9), 80% of which was concentrated above the halocline. Diatoms dominated in the phytoplankton numbers (up to 92%) and biomass
(up to 90%), which was related to the mass development of two species: Chaetoceros diadema and Leptocylindrus danicus. 相似文献
11.
V. M. Sergeeva I. N. Sukhanova M. V. Flint L. A. Pautova J. M. Grebmeier L. W. Cooper 《Oceanology》2010,50(2):184-197
The phytoplankton community was studied in Bering Strait and over the shelf, continental slope, and deep-water zones of the
Chukchi and Beaufort seas in the middle of the vegetative season (July–August 2003). Its structure was analyzed in relation
to ice conditions and the seasonal patterns of water warming, stratification, and nutrient concentrations. The overall ranges
of variation in phytoplankton abundance and biomass were estimated at 2.0 × 102 to 6.0 × 106 cells/l and 0.1 to 444.1 mg C/m3. The bulk of phytoplankton cells concentrated in the seasonal picnocline, at depths of 10–25 m. The highest values of cell
density and biomass were recorded in regions influenced by the inflow of Bering Sea waters or characterized by intense hydrodynamics,
such as the Bering Strait, Barrow Canyon, and the outer shelf and slope of the Chukchi Sea. In the middle of the vegetative
season, the phytoplankton in the study region of the Western Arctic proved to comprise three successional (seasonal) assemblages,
namely, the early spring, late spring, and summer assemblages. Their spatial distribution was dependent mainly on local features
of hydrological and nutrient regimes rather than on general latitudinal trends of seasonal succession characteristic of arctic
ecosystems. 相似文献
12.
In 1993 and 2007 when the expeditions of the Shirshov Institute of Oceanology were performed in the Kara Sea, a significant
part of its aquatic area was occupied by lenses of desalinated water. The fresh-water is supplied by the runoff of the Ob
and Yenisei rivers, as well as by meltwaters. The report considers the features of the freshwater chemical transformation
in the sea. It is shown that the contribution of meltwaters is small in the highly desalinated lenses (with salinity below
15‰) and the freshwater is supplied by the riverine runoff. It is also shown that, under definite conditions, it is possible
to determine the relative shares of the Ob and Yenisei waters using the chemical parameters (the silicon and alkalinity).
The data of 1993 when two lenses as such were found in the sea were confirmed; at that, the waters of the Yenisei and Ob rivers
were prevailing in the western and northeastern lenses, respectively. In 2007, one lens was found in the treated area of the
sea. It is shown that the chemical characteristics of the freshwater in the lens appeared to be sufficiently different from
those of the Ob river but similar to the Yenisei river’s characteristics according to the data of 1993. A map of the Ob’s
and the Yenisei’s water spreading over the sea’s aquatic area is presented. 相似文献
13.
Results of plankton biota studies in the southwestern Kara are presented. The spatial distribution of hydrochemical and hydrophysical parameters related to structural and functional characteristics of phytoplankton in the surface water is considered. The chlorophyll a concentration varied in the surface layer of the Kara Sea from 0.08 to 3.22 mg m–3 (mean value 0.62 mg m–3). Primary production varied from 0 to 1.92 mg C m–3 day–1 (the mean value of 0.42 mg C m–3 day–1) in the ice-covered water areas and was greater by a factor of four, ranging from 1.01 to 3.46 mg C m–3 day–1 (the mean value of 1.79 mg C m–3 day–1) in ice-free areas. In this case, the total algal biomass varied from 0.8 to 110.7 mg C m–3 (mean value 10.6 mg C m–3). It is shown that in the study period, waters from the western Kara Sea were more productive than the estuarine water areas of the Ob and Yenisei rivers. The activity of phototrophic phytoplankton in river waters was almost completely absent. It is established that the contents of nutrients and iron were higher than the threshold for limitation of phytoplankton development. The experiments showed that the production activity of phototrophic algae is restrained by light deficit beneath the ice. 相似文献
14.
Isotope parameters (δD, δ<Superscript>18</Superscript>O) and sources of freshwater input to Kara Sea
The isotope characteristics (δD, δ18О) of Kara Sea water were studied for quantitative estimation of freshwater runoff at stations located along transect from Yamal Peninsula to Blagopoluchiya Bay (Novaya Zemlya). Freshwater samples were studied for glaciers (Rose, Serp i Molot) and for Yenisei and Ob estuaries. As a whole, δD and δ18O are higher in glaciers than in river waters. isotope composition of estuarial water from Ob River is δD =–131.4 and δ18O =–17.6‰. Estuarial waters of Yenisei River are characterized by compositions close to those of Ob River (–134.4 and–17.7‰), as well as by isotopically “heavier” compositions (–120.7 and–15.8‰). Waters from studied section of Kara Sea can be product of mixing of freshwater (δD =–119.4, δ18O =–15.5) and seawater (S = 34.9, δD = +1.56, δ18O = +0.25) with a composition close to that of Barents Sea water. isotope parameters of water vary significantly with salinity in surface layer, and Kara Sea waters are desalinated along entire studied transect due to river runoff. concentration of freshwater is 5–10% in main part of water column, and <5% at a depth of >100 m. maximum contribution of freshwater (>65%) was recorded in surface layer of central part of sea. 相似文献
15.
A. V. Drits A. B. Nikishina T. N. Semenova V. M. Sergeeva K. A. Solovyev M. V. Flint 《Oceanology》2016,56(3):382-394
The distribution and feeding of dominant mesozooplankton species were studied in the estuary of the Ob River and adjacent inner Kara Sea shelf waters in September 2013. It was shown that the spatial distributions of Cyclops sp., Senecella siberica, Limnocalanus macrurus, Mysis oculata, Drepanopus bungei, Jashnovia tolli and Pseudocalanus sp. are related to the specific characteristics of the hydrographic regime in the estuarine frontal zone. The distributions of Cyclops sp., Senecella siberica, and Pseudocalanus sp. are mainly limited by salinity, while other species inhabit an area with a wide range of salinity values without clear preferences. Peaks of their abundance could be either consolidated or distanced in space. The populations of Jashnovia tolli, Drepanopus bungei, and Pseudocalanus sp. permanently inhabit the layer under the pycnohalocline; the populations of Cyclops sp. and Mysis oculata inhabit the upper mixed layer. Limnocalanus macrurus demonstrates a different vertical distribution pattern: the copepod undertakes diel vertical migrations in the southern part of the estuarine frontal zone; in its northern part, the population is concentrated below the pycnocline during day and night. The differences in the distributions of the studied species determine their feeding behavior and their role in phytoplankton grazing. The most intense utilization of biomass and production of autotrophic phytoplankton by zooplankton occur in the freshened water zone and the adjacent southern periphery of the estuarine frontal zone: the total daily phytoplankton consumption makes up 10–18% of the biomass and 60–380% of primary production. Daily zooplankton consumption of phytoplankton in the estuarine frontal zone decreases to 2–7% of the biomass and to 14% of primary production; in inner shelf waters, the values do not exceed 1% for both phytoplankton biomass and production. 相似文献
16.
白令海夏季浮游细菌和原生动物生物量及分布特征 总被引:4,自引:0,他引:4
1999年7月21日至8月1日在我国首次北极科学考察期间,考察了白令海中部的浮游细菌和原生动物,分析了其丰度、分布、生物量及其生态作用,结果显示,浮游细菌表层生物量为1.5~20.2μg/dm3,平均为浮游植物生物量的30%,100m以上水柱柱总生物量(720~3123mg/m2)平均为浮游植物柱总生物量的67%,因而是白令海夏季与浮游植物处同等量级的优势类群;原生动物表层生物量为1.2~27.4μg/dm3,100m以上水柱柱总生物量为189~1698mg/m2,平均为浮游植物柱总生物量的21%,其中粒径小于5,5~20μm和大于20μm的原生动物分别占其柱总生物量的13%,47%和40%;作为主要类群的异养腰鞭毛虫占原生动物柱总生物量的39%.浮游细菌和原生动物生物量的总体分布趋势从西部向东北和东部递减、从表层向深层衰减,20~25m水层温跃层和表层海流的存在对这一分布特性可能有较大的影响.原生动物受潜在的大、中型浮游动物捕食压力的制约,维持了一个相对较低的生物量水平,在一定程度上限制了微食物环(microbial food loop)在该海域夏季生态系统营养中的作用. 相似文献
17.
H.J. Hirche K.N. Kosobokova B. Gaye-Haake I. Harms B. Meon E.-M. Nthig 《Progress in Oceanography》2006,71(2-4):288
After a short introduction to the physical setting and the history of biological research the pelagic ecosystem of the Kara Sea is described. Main emphasis is on regional aspects of the plankton communities and their seasonal dynamics using mostly data collected between 1996 and 2001. In the zooplankton, for which most data were available, four regional aggregations were separated: (1) the rivers and estuaries of the Southern Kara Sea, (2) the south-western and (3) the central Kara Sea, and (4) the northern troughs and slope. The phytoplankton communities had a similar distribution. To provide components for detailed carbon budgets the regional dynamics of bacterial, phytoplankton and zooplankton biomass and production are described and carbon requirements of bacteria and zooplankton are estimated. For completeness a short literature review on higher trophic levels is included. Finally, recent observations of the pelago-benthic coupling are considered. Estimates of the carbon requirements from the plankton and benthos reveal a large underestimation of primary production, which to date, together with seasonal aspects, shows the largest gap in our knowledge. 相似文献
18.
Chang-Rae Lee Keun-Hyung Choi Hyung-Ku Kang Eun Jin Yang Jae Hoon Noh Dong Han Choi 《Journal of Oceanography》2012,68(3):473-482
This study examined the biomass structure of autotrophic and heterotrophic plankton along a trophic gradient in the northwestern Pacific Ocean in an attempt to understand planktonic food web structure. Autotrophic biomass exceeded that of heterotrophic organisms in all sampling regions, but with lesser contribution to total planktonic biomass at stations of higher phytoplankton biomass, including the northern East China Sea, compared to the regions of lower phytoplankton biomass. The proportion of the biomass of heterotrophic bacteria, nanoflagellates (HNF), and dinoflagellates (HDF) relative to that of phytoplankton was all inversely related to phytoplankton biomass, but positive relationships were observed for both ciliates and mesozooplankton. Mesozooplankton biomass inclined greater than phytoplankton along the gradient of phytoplankton biomass, with biomass rise being most closely associated with ciliate and HDF biomass and, to a lesser degree, with large phytoplankton (>3?μm). Both bacteria and picophytoplankton were significantly and positively related to the biomass ratio of mesozooplankton to the sum of HDF and ciliates (i.e., proxy of mesozooplankton predation on protozoans), but no positive relationship was apparent either for HNF or for large phytoplankton. Such relationships may result from predation relief on lower food webs associated with mesozooplankton feeding on protistan plankton. 相似文献
19.
The plankton spring bloom in the northern North Sea was extensively investigated during a period of three months in 1976 at a fixed station occupied by the R.V. “Meteor”. Samples of different depth-profiles, representative of the phytoplankton development, were collected eleven times to analyze the concentration of fatty acids of the particulate matter. The water column was divided into an upper and lower layer according to the thermocline depths, because different processes take place in these layers. During the exponential growth phase the fatty acid concentration rose only slightly due to increases in polyunsaturated fatty acids (18:4, 20:5, 22:6), which are typical for marine plankton. With the exhaustion of nutrients the biochemical composition changed and the fatty acid concentration increased sharply from about 3 to 20 μmol C dm? finally to about 30% of the particulate carbon. The main proportion consisted of oleic acid (28.3%) and palmitic acid (24.2%). The first phytoplankton bloom, dominated by diatoms (Chaetoceros species), was characterized by the increase in fatty acids with 16 carbon atoms, whereas during the second smaller bloom, with dinoflagellates as the main species, more fatty acids with 18 carbon atoms occurred. After the stationary growth phase the phytoplankton biomass strongly decreased, resulting in an increase of particulate matter below the thermocline. The fatty acid pattern there was similar to that during the stationary phase of the phytoplankton bloom in the upper layer. 相似文献
20.
I. N. Sukhanova M. V. Flint E. Ju. Georgieva E. K. Lange M. D. Kravchishina A. B. Demidov A. A. Nedospasov A. A. Polukhin 《Oceanology》2017,57(1):75-90
Studies have been performed on a transect along 130°30′ E from the Lena River delta (71°60′ N) to the continental slope and adjacent deepwater area (78°22′ N) of the Laptev Sea in September 2015. The structure of phytoplankton communities has distinct latitudinal zoning. The southern part of the shelf (southward of 73°10′ N), the most desalinated by riverine discharge, houses a phytoplankton community with a biomass of 175–840 mg/m2, domination of freshwater Aulacoseira diatoms, and significant contribution of green algae (both in abundance and biomass). The northern border for the distribution range of the southern complex of phytoplankton species lies between the 8 and 18 psu isohalines (~73°10′ N). The continental slope and deepwater areas of the Laptev Sea (north of 77°30′ N), with a salinity of >27 psu in the upper mixed layer, are populated by the community prevalently composed of Chaetoceros and Rhizosolenia diatoms, very abundant in the Arctic, and dinoflagellates. The phytoplankton number in this area fall in the range of 430–1100 × 106 cell/m2, and the biomass, in the range of 3600 mg/m2. A moderate desalinating impact of the Lena River discharge is observed in the outer shelf area between 73°20′ and 77°30′ N; the salinity in the upper mixed layer is 18–24 psu. The phytocenosis in this area has a mosaic spatial structure with between-station variation in the shares of different alga groups in the community, cell number of 117–1200 × 106 cells/m2, and a biomass of 1600–3600 mg/m2. As is shown, local inflow of “fresh” nutrients to the euphotic layer in the fall season leads to mass growth of diatoms. 相似文献