295 research outputs found
Criar Ciência
Antes de desenvolver o tema ―Criar ciência‖, propriamente
dito, sinto a necessidade de definir alguns termos e de enquadrar
alguns conceitos. Em primeiro lugar, este capítulo dedica-se às
Ciências ditas Exatas e Naturais, sejam elas de caráter
fundamental ou aplicado, podendo provavelmente grande parte do
que aqui está escrito aplicar-se igualmente à Tecnologia. No
entanto, será que os processos e conceitos ligados à criação da
Ciência nestas áreas do conhecimento diferem dos que regem as
Ciências Humanas e Sociais? Provavelmente não, mas cabe ao
leitor responder a esta pergunta através dos textos aqui
apresentados. Em segundo lugar, as próprias Ciências ditas Exatas
e Naturais abrangem mundos tão diversos e distintos, tanto no que
diz respeito às escalas abrangidas (espaciais ou temporais), como
ao seu próprio estado de desenvolvimento, pelo que me é
obviamente impossível abordar estas ciências no seu conjunto.
Com estas palavras exemplifico perfeitamente, o dilema da maior
parte dos cientistas: Como falar de um tema sabendo
perfeitamente que o que se irá dizer, só se verifica para alguns
casos específicos ou até mesmo para uma grande maioria, mas
nunca para tudo e todos
An attempt to use color as a tool for high resolution correlations between estuarine sedimentary cores from Algarve (Portugal)
Nowadays, paleoenvironmental and climatological researches focus on studying shortterm
climatic changes and one of the more sensitive environments for recording those
short-term climatic variations are the high sedimentation rate of coastal regions. Accordingly,
4 estuaries from the Algarve region, south of Portugal, have been cored
in order to study sedimentary and climatic variations during recent times (c.a. 5000
yrs). For this purpose, we applied sampling and analytical techniques from deep-sea
studies, allowing the acquirement of almost continuous data profiles, as the color data
obtained with the spectrophotometer Colortron
Regional sea level change study based on estuarine sediment color and biogeochemistry - preliminary results
Coastal zones play a significant role in the regional development and have been an important area for human occupation through time. The study of estuarine sediments applied to sea level changes had always been of extreme importance, as it reflects the coastal line evolution, either by local, regional or global changes
Correlation of estuarine sedimentary cores based on color analysis: an example from the Algarve region (Portugal)
Coastal zones play a significant role in the regional development and have been an important area for human occupation
through time. The study of estuarine sediments applied to sea level changes had always been of extreme importance, as it
reflects the coastal line evolution, either by local, regional or global changes
Is it possible to use "twin cores" as a unique sedimentary record? An experimental design based on sediment color
Sedimentary cores are widely used for studying Quaternary records. However, the
amount of sediment that is available is proportional to the diameter of the core, which is rarely
bigger than 15 cm. One way to obtain more sediment is to use two cores retrieved from almost
the same location and use them as if they represent a unique sedimentary record. In the present
work, an experimental design has been applied to verify if “twin cores” from an estuary can be
considered as representing the same sedimentary record with twice the amount of sediment to
study. Because sediment can be characterized based on its color, the variables used as
replicates in the experimental design are the three Lab CIE colors acquired with a X-Rite
Colortron spectrophotometer. Sediment cores were retrieved from the upper saltmarsh of Gilão
River’s estuary, southern Portugal. Twin cores, with in between distances of 50 cm, 100 cm
and 200 cm, from two different sites were analysed. Results from a nested ANOVA show that
even for the closest twin cores (50 cm apart) there is at least one color variable that shows
significant variations between the profiles of both cores. These results clearly show that “twin
cores” cannot be used as a unique sedimentary record without any previous testing, at least in
such transitional regions
Shore platforms as a proxy for sea level changes
Shore platforms show several morphological features that can be use as
proxies for sea level changes. However, they are frequently difficult to date
and form in tidal ranges that may overcome the relative mean sea level (rmsl)
changes
Organic carbon accumulation in coastal zones since the last glacial maximum? A clue for varying atmospheric CO2 levels?
It is a generally accepted concept that the carbon storage within the principal earth surface reservoirs varies in a multitude
of time scales. The shallow water continental margins belong to the most fertile areas in terms of organic carbon (OC)
production and are also very effective carbon traps
Detection of speleothem growth bands with an open source geophysical software
Speleothem growth bands are commonly referred as one of the parameters that are used for
paleoclimate reconstructions. Accordingly, this work presents a new tool for detecting these
bands based on the gray-scale image of the speleothem using the Mirone open source
geophysical software
Using Radium isotopes to evaluate the mixing timeline and relative age of waters in a leaky coastal lagoon
The Ria Formosa wetland system is classified as a leaky coastal lagoon and covers
approximately 100 km2 of the South of Portugal, with roughly 50% being intertidal. Its
hinterland is set in an arid region and on a coastal plain subject to intensive agriculture since the
50’s. In spite of high exchange coefficients with the coastal ocean (50 and 75% at neap and
spring tides, respectively) and the annual total potential freshwater discharge from the hinterland
a fraction of the daily tidal prism, worrying signs of eutrophication have been detected during the
past couple of decades. These include fish- and clam-kill episodes, increased occurrence of
nuisance algal blooms and substitution of native sea grass communities by macroalgae.
Notwithstanding its critical importance for the evaluation of pollutant exposure period, the
literature includes a wide range of estimates for the ‘residence time’ of waters within the lagoon
(16 hours to 11 days, with an the apparent consensus falling within the 1-2 day interval) and this
point is a clear obstacle for a correct environmental risk assessment, including management of
the system. This lack of clarity is due in our view to two main factors: i) the lack of proper
physical definition of the term ‘residence time’, with its consequent misuse and misapplication in
context, a misconception that is unfortunately too common within the environmental community,
and different concepts in the application of transport time scales ii) the geomorphological and
hydraulic complexity of the system.. As part of ongoing research evaluating the role of
Submarine Groundwater Discharge (SGD) as a loading vector for nutrients (especially Nitrate)
into the lagoon, we use the radium quartet in combination with remote sensing and isotope
mixing models to develop and discuss a mixing timeline for the system, We conclude that the
average, whole-system residence time of waters within the lagoon is at least 4 days
Ocean and climate changes in polar and sub-polar environments: proceedings from the 2010 IODP-Canada/ECORD summer school
The European Consortium for Ocean Drilling Program (ECORD), the Canadian Consortium for Ocean Drilling (CCOD), the Network of the Universités du Québec (UQ), the Université du Québec à Montréal (UQAM) and GEOTOP sponsored, in 2010, a summer school entitled Ocean and climate changes in polar and sub-polar environments. This summer school took place from 27 June to 12 July in Rimouski, Québec city and Montréal (Quebec, Canada) and was attended by nineteen students and postdoctoral fellows from seven countries: Canada, France, Germany, UK, Serbia, Portugal and the USA. Lectures, hands-on laboratory exercises and laboratory visits were conducted at the Institut des Sciences de la Mer de Rimouski (ISMER), Institut National de la Recherche Scientifique Centre Eau Terre Environnement (INRS-ETE) and UQAM, in addition to two field trips and a short geological and geophysical cruise on board the R/V Coriolis II in the St Lawrence Estuary and Saguenay Fjord. During the summer school, more than twenty researchers gave lectures on the use of several paleoceanographic and geophysical techniques to reconstruct ocean and climate changes in polar and sub-polar environments. Some of these lectures are presented as short review papers in this volume. They are intended to portray a brief, but state-of-the-art overview of an array of techniques applied to Arctic and sub-Arctic environments, as well as the geological background information needed by the summer school participants to put the scientific expedition and fieldwork into context. The volume begins with a view on the great challenges and key issues to be addressed in the Arctic Ocean (Stein) in the forthcoming years and is followed by a review (O'Regan) on Late Cenozoic paleoceanography of the Central Arctic. The two subsequent papers (St-Onge et al and de Vernal et al) deal with the oceanographic, paleoceanographic and geological context of the Saguenay Fjord, and St Lawrence Estuary and Gulf. The subsequent set of papers review the use of planktonic foraminifers (Eynaud), diatoms (Crosta) and dinocysts (de Vernal and Rochon) in polar or sub-polar environments. These articles are followed by a paper on transfer functions (Guiot) summarizing the different approaches used to reconstruct past environmental conditions from micropaleontological proxy data. Two papers on geochemical and isotopic proxies are then presented and related to either foraminifera isotopic records (Hillaire-Marcel) in high northern latitudes or changes in ocean circulation and weathering inputs derived from radiogenic isotopes (Frank). The volume concludes with a paper on the application of visible/near infrared derivative spectroscopy to Arctic sediments (Ortiz). All the papers published in this volume benefited from the reviews of at least two reviewers, whom we thank for their valuable time and comments. We also thank the crew of the Coriolis II, and the many scientists, participants and volunteers who contributed to the summer ..
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