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Barrier Layers of the Atlantic Warm Pool: Formation Mechanism and Influence on Weather and ClimateBalaguru, Karthik 2011 May 1900 (has links)
The aim of this research is to study the formation mechanism of Barrier Layers
(BL) in the western tropical Atlantic and their influence on the tropical Atlantic
climate at both short and long timescales. Many Coupled General Circulation Models
(CGCMs) tend to overestimate the salinity in the Atlantic warm pool or the
Northwestern Tropical Atlantic (NWTA) and underestimate the surface salinity in
the subtropical salinity maxima region. Most of these models also suffer from a seasurface
temperature (SST) bias in the NWTA region, leading to suggestions that the
upper ocean salinity stratification may need to be improved in order to improve the
BL simulations and thus the SST through BL-SST-Intertropical Convergence Zone
(ITCZ) feedbacks. We used a CGCM to perform a set of idealized numerical experiments
to understand the sensitivity of the BL and consequently SST in the NWTA
region to freshwater flux and hence the upper ocean salinity strati cation. We find
that the BL of the western tropical Atlantic is quite sensitive to upper ocean salinity
changes in the Amazon River discharge region and the subtropical salinity maxima
region. The BL phenomenon is further manifested by the formation of winter temperature
inversions in our model simulations. However, in the region of improved BL
simulation, the SST response is not statistically significant.
SST response to Tropical Cyclones (TCs) is studied for the Atlantic region using
a high-resolution coupled regional climate model (CRCM) and observational data sets. The presence of a BL, defined as the layer below the mixed layer that separates
the base of the isothermal layer from the base of the isohaline layer, is found to modulate
the SST response. The amplitude of TC-induced surface cooling is reduced by
more than 35 percent in the presence of a BL, as a consequence of the weak thermal stratification. Furthermore, in locations when the BL exhibits a temperature inversion,
TC-induced mixing can result in weak surface warming. BLs considerably reduce the
rightward bias for tropical storms, but the effect is less conspicuous for TCs. The
enthalpy flux into the atmosphere at the air-sea interface is enhanced by 16 percent and
the increase in upper ocean potential energy due to TC-induced mixing is reduced
by 25 percent in the presence of BLs. The results from the coupled model are supported
by an observational analysis performed using re-analysis data sets, as well as data
from Argo floats and TRMM satellite. As previous modeling and observational studies
have indicated that the surface cooling caused by TC-induced mixing acts as a
negative feedback for its intensity, results from our study suggest that BLs may have
potential implications for TC intensity prediction.
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A Mechanistic Study of Atlantic Meridional Overturning Circulation Changes on Tropical Atlantic ClimateWen, Caihong 2009 August 1900 (has links)
An eddy-permitting 2-1/2-layer Reduced Gravity Ocean (RGO) model is
developed. Compared with the conventional 2-1/2-layer RGO models, the new model
has improvements in subsurface thermodynamics, vertical mixing scheme and open
boundary conditions. Using this new 2-1/2-layer RGO model as a dynamical tool, a
systematic investigation of the role of oceanic processes in controlling tropical Atlantic
sea-surface temperature (SST) response to Atlantic Meridional Overturning Circulation
(AMOC) changes is carried out by varying the strength of northward mass transport at
the open boundaries. It is found that the North Brazil Undercurrent (NBUC) reverses its
direction in response to a shut-down of the AMOC. Such circulation change allows
warm waters of the northern subtropical gyre enter the equatorial zone, giving rise to a
prominent warming in the Gulf of Guinea and off the coast of Africa. Sensitivity
experiments further show that the SST response behaves nonlinearly to AMOC changes.
The rate of SST changes increases dramatically when the AMOC strength is below a
threshold value. This nonlinear threshold behavior depends on the position of
subsurface temperature gradient. The new RGO is coupled to an atmosphere general
circulation model (AGCM) (CCM3.6). The coupled model is capable of capturing major
features of tropical Atlantic variability. With the aid of this coupled model, a series of
experiments with different combinations of oceanic and atmospheric processes are
carried out to elucidate the relative importance of the oceanic processes and atmospheric
processes in AMOC-induced tropical Atlantic variability/change. It is found that the oceanic processes are a primary factor contributing to the warming at and south of the
equator and the precipitation increase over the Gulf of Guinea, while atmospheric
processes are responsible for the surface cooling of the tropical north Atlantic and
southward displacement of ITCZ. The sensitivity of the coupled system to different
strength of the AMOC is further investigated. It is found that equatorial SST and
precipitation response also behaves nonlinearly to AMOC changes. The impact of
AMOC changes on Tropical Instability Waves (TIWs) is assessed. It is found that the
activity of TIWs is reduced in response to the AMOC-induced equatorial SST warming.
Correlation analysis suggests that AMOC may affect TIW activities by modifying SST
gradient north of the equator.
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A coupled model study of the remote influence of enso on tropical Atlantic sst variabilityFang, Yue 16 August 2006 (has links)
To investigate the tropical Atlantic response to the remote El Nino-Southern
Oscillation (ENSO) forcing, a Reduced Physics  Coupled Global Circulation Model
(RP-CGCM) is developed, and four experiments are carried out. The results show that
the RP-CGCM is capable of capturing the major features of Tropical Atlantic Variability
(TAV) and its response to ENSO forcing.
The SST response to the remote influence of ENSO may be divided into two
stages. In stage one, the ENSO influences the tropical Atlantic SST primarily through
the Troposphere Temperature (TT) mechanism, which predicts a uniform warming in the
tropical Atlantic following the mature phase of El Nino. In the north tropical Atlantic
(NTA), the Walker mechanism and the Pacific-North-American (PNA) mechanism work
in concert with the TT-induced warming, giving rise to a robust SST response during the
boreal spring in this region. In the south tropical Atlantic (STA), the southeasterly wind
anomaly and increased stratus clouds work against the TT-induced warming, resulting in
a much weaker SST response in this region. At this stage, the response can be largely
explained by the ocean mixed layer response to changes in surface heat fluxes induced
by ENSO.
In stage two, ocean dynamics play a more active role in determining the
evolution of SST. The cross-equatorial wind anomaly in the western to central equatorial
Atlantic can change the SST in the eastern equatorial Atlantic through Bjerknes
feedback and the SST in the central equatorial Atlantic through Ekman feedback. These
feedback result in a cooling of SST in the equatorial south Atlantic (ESA) region which is so overwhelming that it cancels the warming effect induced by the TT mechanism and
reverses the sign of the warm SST anomaly that is formed during stage one in this
region.
In general, the horizontal advection of heat plays a secondary role in the SST
response to the remote influence of ENSO, except in the regions where the North
Equatorial Countercurrent (NECC) dominates and the SST variability is strong.
Entrainment is particularly important in maintaining the correct SST structure during
boreal summer.
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Oceanic Origins of Southwest Tropical Atlantic BiasesXu, Zhao 03 October 2013 (has links)
The SST bias in the tropical Atlantic exists in the early to latest generation of coupled general circulation models. The maximum bias is not on the equator but at 16°S, the cause of which has not been thoroughly studied. Newly released CMIP5 models provide a useful tool to investigate the contributions of different physical processes to the SST bias in this area in the coupled system. We tested three existing mechanisms and found that: 1) there is no significant relationship between the SST bias and surface heat flux bias; 2) deficient coastal upwelling is a contributing but not the sole source of the bias; and 3) the SST bias is correlated with temperature biases in the upstream equatorial region.
The Angola-Benguela front is displaced southward by more than 10° in latitude in many CIMP5 models. Due to the huge temperature contrasts on two sides of the front, such a frontal displacement generates a very strong SST bias. The correlation between the SST bias and frontal location error in this region is significant at the 99% level, demonstrating that the SST bias in coupled GCMs is attributable to the models’ inability to reproduce a realistic position of the front and the consequent erroneous advection by the southward Angola current. This is due to both errors in the simulated surface wind field and systematic errors in ocean models.
Ocean reanalysis datasets and a high-resolution regional model simulation suffer a similar pattern of SST biases. Although they produce a more realistic ocean circulation than coarser resolution simulations and alleviate some of the severe SST bias near the front, a warm bias overlies on a northward current to the south of the front, which actually comes from the north of the front through a subsurface passage. We identify a strong subsurface temperature bias caused by a too-deep and diffused simulated thermocline along the coast of Angola, originating from the equatorial thermocline, advected by the Angola Current and an undercurrent beneath the Benguela current, and then brought to the surface by the coastal upwelling along the Benguela coast, contributing to the warm SST bias south of the front.
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Toward understanding predictability of climate: a linear stochastic modeling approachWang, Faming 15 November 2004 (has links)
This dissertation discusses the predictability of the atmosphere-ocean climate system on interannual and decadal timescales. We investigate the extent to which the atmospheric internal variability (weather noise) can cause climate prediction to lose skill; and we also look for the oceanic processes that contribute to the climate predictability via interaction with the atmosphere.
First, we develop a framework for assessing the predictability of a linear stochastic system. Based on the information of deterministic dynamics and noise forcing, various predictability measures are defined and new predictability-analysis tools
are introduced. For the sake of computational efficiency, we also discuss the formulation
of a low-order model within the context of four reduction methods: modal, EOF, most predictable pattern, and balanced truncation.
Subsequently, predictabilities of two specific physical systems are investigated within such framework.
The first is a mixed layer model of SST with focus on the effect of oceanic advection.Analytical solution of a one-dimensional model shows that even though advection can give rise to a pair of low-frequency normal modes, no enhancement in the predictability is found in terms of domain averaged error variance. However, a Predictable Component Analysis (PrCA) shows that advection can play a role in redistributing the predictable variance. This analytical result is further tested in a more realistic two-dimensional North Atlantic model with observed mean currents.
The second is a linear coupled model of tropical Atlantic atmosphere-ocean system. Eigen-analysis reveals that the system has two types of coupled modes: a decadal meridional mode and an interannual equatorial mode. The meridional mode, which manifests itself as a dipole pattern in SST, is controlled by thermodynamic feedback between wind, latent heat flux, and SST, and modified by ocean heat transport. The equatorial mode, which manifests itself as an SST anomaly in the eastern equatorial basin, is dominated by dynamic feedback between wind, thermocline, upwelling, and SST. The relative strength of thermodynamic vs dynamic feedbacks determines the behavior of the coupled system, and enables the tropical Atlantic variability to be more predictable than the passive-ocean scenario.
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On the role of wind driven ocean dynamics in tropical Atlantic variabilityDa Silva, Meyre Pereira 16 August 2006 (has links)
The response of the tropical Atlantic Ocean to wind stress forcing on
seasonal and interannual time scales is examined using an ocean data
assimilation product from the Geophysical Fluid Dynamics Laboratory (GFDL),
and an ocean general circulation model which incorporates a three dimensional
flux correction technique to correct biases of the mean state of the ocean.
On a seasonal time scale, we investigated the impact of the annual
migration of the ITCZ on the exchange pathways of the northern tropical Atlantic.
The results indicate that seasonal variation of the zonal slope of the thermal
ridge along the boundary between the north equatorial countercurrent and north
equatorial current in response to changes in the ITCZ controls, to a large extent,
the amount of water participating in the equatorial circulation. These changes
can be explained in terms of a simple dynamical model where local Ekman
pumping dominates thermocline variation in the western part of the basin, and
Rossby wave adjustment comes into play in the eastern basin.
On an interannual time scale, we examined the upper heat budget of the
equatorial Atlantic in order to identify the key mechanisms by which wind-driven
ocean dynamics control SST variability during the onset and peak phases of the
Atlantic zonal mode. It is found that, in contrast with Pacific ENSO, both
Bjerknes and Ekman feedbacks act together to force the zonal mode, although
their relative importance and dominance depend on season and location.
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The Internal Structure, Seasonality, and Generation Mechanisms of Surface North Brazil Current RingsCastelao, Guilherme 14 December 2011 (has links)
In the western tropical Atlantic, the North Brazil Current retroflection periodically sheds large anticyclonic rings, which then propagate northwestward. Between 1998 and 2000, the North Brazil Current Rings Experiment sampled a large number of these rings by shipboard and moored acoustic Doppler current profiler. Ten of the sampled rings are analyzed in this study, focusing on their sea surface dynamic properties. The rings exhibit a radial structure consisting of two regimes, an ``inner'' core region in near solid body rotation and an ``outer'' ring regime with an approximately exponentially decaying structure. The observations show a sharp change in vorticity at the regime transition and the presence of a strong opposite vorticity shield bounding the inner solid body core. We show that Gaussian models, commonly used to represent the surface expression of these and other rings, are adequate for determining the sea surface height anomaly but tend to poorly estimate other properties such as the maximum swirl velocity. Therefore, we propose a new two--part model as a better approximation of the rings' radial structure. According to the cyclogeostrophic balance approximation, the sea surface height distribution across the inner ring has a parabolic shape, while the outer ring has an exponential structure similar to the velocity field. Interestingly, many of the observed rings have an intensity very close to the theoretical limit for anticyclones at these latitudes, which is believed to be due to inertial instability. A climatology of the NBCR is developed from 17 years of satellite altimetry. Usually 5 to 7 NBCR are observed per year, leading to an average of 6.1 rings per year, higher than the previously accepted 5.5 rings per year. A new methodology, more robust and consistent, is developed to track the rings, showing an impressive skill. The methodology can be applied to any velocity field, including irregular data grids. In contrast to what was previously believed, the NBCR do have a seasonal cycle. While so clear in the number of generated rings the seasonal cycle is explicit in the rhythm of formation. The rings are usually formed every 30--70 days, being more frequent during the Spring, when they are generated in a regular pace of near 40 days. In the Fall, the rings are less frequent, with a longer and variable time interval between them. The generation of North Brazil Current Rings (NBCR) has been proposed from numerical simulations to result from westward propagation Rossby waves originating from the instability of the North Equatorial Countercurrent (NECC). Other mechanisms, such as instability of he North Brazil Current where it crosses the equator, are also possible, and the precise mechanisms controlling NBCR formation are still undetermined. Here the ``NECC wave mechanism'' for generation of the near surface NBCR is evaluated for the first time from observations -- 18 years of satellite altimetry. Using a Complex Principal Component analysis on maps of absolute dynamic topography, it is shown that the NECC is the origin of the coherent propagating rings along the NBCR corridor. In agreement with the results proposed from previous simulations, the modal solution has a longer wavelength before the retroflection and shorter wavelength along the ring corridor. The seasonal signal of the wave energy in the NECC is also found to be coherent with the seasonal production cycle of the rings, after taking into account phase lags due to wave propagation. It is therefore confirmed that the of NBCR shedding is defined by wave processes arising in the NECC. Further, in contrast with prior understanding, the NBCR are shown to have a seasonal signal that follows the seasonal cycle of the NECC intensity.
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Conhecimento sobre plantas medicinais com atividade de controle do colesterol, pressão arterial e problemas renais, utilizadas pela população residente no Bairro dos Marins município de Piquete - SPBarros, Lívia Cristina Pereira [UNESP] 31 August 2007 (has links) (PDF)
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barros_lcp_me_botfca.pdf: 1858043 bytes, checksum: fb53061efb50a949388de9ae4d407603 (MD5) / Conselho Nacional de Desenvolvimento Científico e Tecnológico (CNPq) / Esta pesquisa teve como objetivo principal realizar levantamento etnobotânico junto à comunidade rural do Bairro dos Marins, no município de Piquete, a respeito do conhecimento sobre as plantas medicinais com atividades de controle do colesterol, pressão arterial e problemas renais. Outros objetivos a alcançar disseram respeito à ocorrência e à freqüência das doenças na comunidade; verificar como os moradores reconhecem e nomeiam as doenças estudadas; identificar quais espécies de plantas medicinais são conhecidas e usadas pelos moradores, sua forma de utilização e preparo; e entender como todas as casas do Bairro. A escolha do entrevistado de cada unidade residencial teve como critério que este fosse responsável pelo sustento da família. Foram entrevistadas 74 pessoas, mediante entrevistas estruturadas e semi-estruturadas. Foram coletados dados sócio-culturais e levantados os problemas de saúde mais recorrentes na comunidade e as plantas usadas para tratar cada um deles. Na segunda etapa foram entrevistados profissionais e agentes da área da saúde do Programa de Saúde da Família (PSF). Nessa etapa foi utilizado roteiro com perguntas. Para a terceira etapa foi usada a técnica de amostragem “bola de neve”, que consistiu em conversar com algumas pessoas da comunidade e perguntar se conheciam moradores que tinham significativo conhecimento sobre plantas medicinais, com esta técnica foram indicadas 15 pessoas. Para complementar a pesquisa foram escolhidos mais cinco entrevistados pelo método conhecido como amostragem por julgamento, o critério para escolha destes foi o maior número de espécies medicinais citadas durante a primeira etapa e conhecimento e uso das plantas para as três enfermidades propostas neste estudo. Durante a realização da terceira etapa optou-se por utilizar entrevistas semi-estruturadas... / The main objective of this research was to do an ethnobotanical survey in the rural community Marins, Piquete municipality, on their knowledge about medicinal plants with activity on cholesterol control, blood pressure and kidney problems. Other objectives were to evaluate the occurrence and the frequency of the diseases in the community, to verify how the inhabitants know and name the studied diseases, to identify which species of medicinal plants are known and used by the inhabitants, how they prepare and use each one and to understand how the exchange of information works in the community.The collection of data was based on methods used in Anthropology, like semi-structured and structured interviews and also participant observation. In order to facilitate the research, the interviews were divided in three stages. In the first stage all the houses of the community were visited. The person who was responsible for the family support was chosen as the one who would be interviewed. Seventy four people were interviewed by using semi-structured and 74 structured interviews. Sociocultural data were collected, as well as the community’s most common health problems and the plants used to treat each problem. In the second stage, professionals and healthcare workers from the healthcare family program (PSF) were interviewed. On the third stage, it was used the “snow ball” technique, which consists on talking to some people of the community and asking them whether they know some inhabitants who have a significant knowledge about medicinal plants. Fifteen persons were indicated with the use of this technique. To complete the research, five more persons were interviewed by the method know as judgment sampling. The criterion used to choose these five interviewed was the greatest number of medicinal plants species mentioned on the first stage and the...(Complete abstract click electronic access below)
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Distribuição vertical de Euphausiacea ao largo do arquipélago de São Pedro e São PauloLIMA, Cynthia Dayanne Mello de 29 June 2016 (has links)
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Previous issue date: 2016-06-29 / CNPq / Este estudo descreve a distribuição vertical de eufausídeos na presença de uma termoclina
permanente em águas oligotróficas do Atlântico Tropical (00º 55 'N, 29º 21' W). A
amostragem foi realizada de junho de 2010 à outubro de 2011, com arrastos verticalmente
estratificados de 100 a zero m durante o dia e à noite. Densidades foram analisadas quanto a
sua relação com a profundidade, estações e sazonalidade. A média total da densidade de
eufausídeos foi de 2,65 ind. m-³, com valor máximo de 30,4 ind. m-³. A comunidade foi
composta principalmente de larvas (80%). As larvas de Euphausia foram mais abundantes,
com 56,4% de todos os indivíduos. Eufausídeos foram sempre mais abundantes durante a
noite. A distribuição vertical ontogenética de eufausídeos apresentou três padrões: (i) larvas
caliptopis foram mais abundantes na camada de transição (ii) larvas furcilia na camada de
mistura superior (iii) e para os adultos, os padrões variaram de acordo com a espécie. Padrões
de distribuição distintos podem ser descritos para três espécies de Euphausia (E. americana,
E. tenera e E. similis) e duas espécies de Stylocheiron (S. carinatum e S. suhmii), sugerindo
que espécies congêneres desses dois gêneros realizam partição de recursos na coluna de água.
Os nossos dados suportam a ideia de que a camada de transição na base da camada de mistura
superior é um hábitat importante para os eufausídeos na área de estudo. Este estudo revelou
que espécies e estágios de desenvolvimento possuem padrões específicos de distribuição
vertical para este táxon–chave nos oceanos tropicais oligotróficos. / This study describes the vertical distribution of euphausiid in the presence of a permanent
thermocline in the oligotrophic waters of the Tropical Atlantic (00º 55 'N, 29º 21' W).
Sampling was conducted from June 2010 to October 2011, from 100 to zero m in vertically
stratified hauls during day and the night. Densities were analyzed regarding their relation to
depth, temporal variability and station. Mean total euphausiids density was 2.65 ind. m-³ with
values up to 30.4 ind. m-³. This community was mainly composed of larvae (80%). Larvae of
the Euphausia were most abundant, with 56.4% of all individuals. Euphausiids were always
most abundant during the night. The ontogenetic vertical distribution of euphausiids presented
three patterns: (i) calyptopis larvae were most abundant in the transition layer (ii) furcilia
larvae in the upper mixed layer. (iii) and for adults, patterns varied according to species.
Distinct distribution patterns could be described three species of Euphausia (E. americana, E.
tenera and E. similis) and two species of Stylocheiron (S. carinatum and S. suhmii),
suggesting that congeneric species of these two genera perform resource partition in the water
column. Our data support the idea that the transition layer at the base of the upper mixed layer
is an important habitat for euphausiids in the study area. This study revealed species- and
stage- specific patterns of vertical distribution for these key taxa in the oligotrophic tropical
oceans.
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Migração vertical do microzooplâncton do Arquipélago de São Pedro e São PauloCORREIA, Érika Pinho January 2014 (has links)
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Previous issue date: 2014 / A presente dissertação é composta por dois manuscritos. O primeiro foi elaborado com
o intuito de responder ao objetivo principal da dissertação: caracterizar a migração vertical do
microzooplâncton do Arquipélago de São Pedro e São Paulo (ASPSP). A partir das amostras
analisadas, ainda foi possível obter um manuscrito adicional, registrando a primeira
ocorrência de Aetideus australis para o Brasil e Aetideus giesbrechti para o ASPSP. Para isto,
foram realizadas coletas diurnas e noturnas em três campanhas (C1: junho de 2010; C2:
setembro de 2011; C3: outubro de 2011), em duas estações fixas, uma a leste (E1) e outra a
oeste (E2) do ASPSP. Foram feitos arrastos verticais com rede de plâncton com sistema de
fechamento tipo Nansen e malha com abertura de 64 μm, em cinco camadas pré-determinadas
de 20 metros, até 100 m de profundidade (L1: 0-20 m, L2: 20-40 m, L3: 40-60 m, L4: 60-80
m e L5: 80-100 m). Adicionalmente, para caracterizar a estrutura termohalina, foram obtidos
perfis com um CTD da superfície até 100 m; ainda, foram realizados perfis verticais através
de sonda perfiladora SCAMP para obtenção de dados de clorofila-a em C1. Para obter os
dados de clorofila-a em C2 e C3, foi coletada água com auxílio de uma garrafa de Niskin. Foi
observado um pico subsuperficial deste parâmetro aproximadamente a 70 m de profundidade.
A diversidade de espécies foi muito alta (3,60 ± 0,36 bits.ind-1
), sendo identificados 102 taxa,
considerando a menor unidade taxonômica possível de se identificar. Estes taxa estiveram
representados por 9 Filos (Dinophyta, Ciliophora, Protozoa, Cnidaria, Annelida, Mollusca,
Arthropoda, Chaetognatha, Chordata), com predomínio de organismos pertencentes ao
protozooplâncton (dinoflagelados, foraminíferos, radiolários e tintinídeos) e à classe dos
Copepoda (náuplios, juvenis e adultos). Copepoda destacou-se com cerca de 60 espécies,
dentre as quais Aetideus australis e Aetideus giesbrechti foram registradas pela primeira vez
para o Brasil e o ASPSP, respectivamente. Foi observada uma estratificação na coluna d’água
em duas camadas (acima e abaixo da termoclina) diferentes significativamente uma da outra:
superfície (L1, L2 e L3) e subsuperfície (L4 e L5). Os organismos puderam ser separados em
três grupos: os que se distribuíram por toda coluna d’água (Dinoflagelados, Copepoda
(Náuplio), Oithona spp., Oncaea spp.), os que ocorreram em águas superficiais
(Clausocalanus furcatus, Farranula gracilis, Appendicularia) e os que parecem evitar águas
acima da termoclina média (Ostracoda, Aetideus spp., Haloptilus spp.). Através do uso da
WMD (Weighted Mean Depth), não foi identificado um padrão típico de migração vertical diária em nenhum taxa no presente estudo, fato já mencionado para organismos de classes de
tamanho menores, sendo geralmente o padrão de migração vertical atribuído a organismos
zooplanctônicos de classes de tamanho maior. Não foram observadas diferenças significativas
entre os períodos diurno e noturno bem como não foi observada uma variação temporal nem a
curto (C2 ≠ C3) nem a longo prazo (C1 ≠ C2 e C3). Deste modo, esta dissertação descreve,
pela primeira vez, padrões de distribuição vertical dos principais taxa e constata a ausência de
padrões de MVD em organismos microzooplanctônicos no ASPSP. Além disso, mostra a alta
diversidade destes organismos neste ambiente oceânico tropical, destacando a necessidade do
desenvolvimento de mais estudos envolvendo a estrutura básica desta comunidade. / This dissertation consists of two manuscripts. The first was designed with the intuite
of answer the main objective of the dissertation: characterize the vertical migration of
microzooplankton of Saint Peter and Saint Paul Archipelago (SPSPA). From the samples
analised, it was still possible to obtain an additional manuscript, recording the firt occurrence
of Aetideus australis to Brazil e Aetideus giesbrechti to SPSPA. For this, diurnal and
nocturnal sampling were carried out in three campaigns (C1: June/2010; C2: September/2011;
C3: October/2011), in two fixed stations, one in the East (S1) and another to the West (S2)
from SPSPA. Vertical hauls with plankton net with a closing system Nansen type and mesh
size of 64 μm were made, considering five predetermined layers of 20 m. (L1: 0-20 m, L2:
20-40 m, L3: 40-60 m, L4: 60-80 m and L5: 80-100 m). Additionally, to characterize the
thermohaline structure, CTD profiles were obtained from surface to 100 m depth; and vertical
profiles were carried out using a Self Contained Autonomous MicroProfiler SCAMP in C1 to
obtain data of chlorophyll-a. To obtain data of chlorophyll-a in C2 and C3, water was
collected with the support of a Niskin bottle. A chlorophyll-a subsurface peak of this
parameter was observed at approximately at 70 m depth. Species diversity was very high
(3.60 ± 0.36 bits.ind-1
), being identified 102 taxa, considering the smallest taxonomic unit
possible to be identified. These taxa have been represented by 9 Phyla (Dinophyta,
Ciliophora, Protozoa, Cnidaria, Annelida, Mollusca, Arthropoda, Chaetognatha, Chordata).
Among these, predominated organisms belonging to protozooplankton (dinoflagellates,
foraminiferans, radiolarians and tintinnids) and to Copepoda (nauplii, juveniles and adults).
Copepoda showed highest richness with 60 species, among which Aetideus australis e
Aetideus giesbrechti was register for the first time to Brazil and SPSPA, respectively. A
stratification was observed in the water column separing in two layers (above and below the
thermocline) significantly different from each other: surface (L1, L2 and L3) and subsurface
(L4 and L5). The organisms presented three groups: those who was distributed throughout the
water column (Dinoflagellates, Copepoda – nauplius –, Oithona spp., Oncaea spp.), those
who occurred in superficial waters (Clausocalanus furcatus, Farranula gracilis,
Appendicularia) and those that seem to avoid water above the medium thermocline
(Ostracoda, Aetideus spp., Haloptilus spp.). Through the use of WMD (Weighted Mean
Depth), it was not identified a typical pattern of daily vertical migration (DVM) to none taxa in the present study. This fact was already mentioned to organisms of smaller size classes, as
vertical migration pattern being generally attributed to zooplanktonic organisms of larger size.
No significant differences were observed between day and night periods and it was not
observed a temporal variation nor at short (C2 ≠ C3) or long term (C1 ≠ C2 e C3). Thus, this
work describes, for the first time, patterns of vertical distribution of the main taxa and notes
the lack of patterns of DVM in microzooplanktonic organisms in the SPSPA. Furthermore, it
shows the high diversity of these organisms in this tropical ocean environment, highlighting
the need to develop more studies involving the basic structure of this community.
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