Dinâmica da vegetação e inferências climáticas no Quaternário Tardio na região da Ilha de Marajó (PA), empregando os isótopos do carbono (12C, 13C, 14C) da matéria orgânica de solos e sedimentos / Vegetation dynamics and climatic inferences in the Late Quaternary in the Marajó Island region, employing the carbon isotopes (12C,13C,14C) of the soil and sediments organic matter

Claudia Moré de Lima

27 August 2008

Considerada a maior ilha flúvio-marítima do mundo, com aproximadamente 48.000 km2, a Ilha de Marajó situa-se na zona equatorial brasileira, no litoral do Estado do Pará. Apresenta dois domínios distintos relacionados a geologia e vegetação. No setor oeste dominam solos desenvolvidos sobre os sedimentos Pós Barreiras (plio-pleistocênicos) recobertos pela Floresta Amazônica, enquanto no setor leste dominam sedimentos holocênicos derivados de ambiente fluvial/estuarino atualmente desativado. Neste setor encontram-se os extensos campos naturais marajoaras. O objetivo deste trabalho consistiu em aplicar os isótopos de carbono (12C, 13C e 14C) da matéria orgânica de solos e sedimentos com o intuito de avaliar possíveis modificações nos domínios da vegetação, em termos de plantas C3 e C4, durante o Quaternário Tardio e inferir sobre suas causas. Os resultados foram associados com observações de campo e análises petrográficas, sedimentológicas, químicas, de espículas de esponjas, isótopicas de nitrogênio e bibliográficas, sendo possível distinguir três mudanças ambientais relacionadas à geologia e vegetação, no setor leste da Ilha de Marajó durante o Pleistoceno Superior (aproximadamente 16.000 anos AP) ao Holoceno. No setor central da Ilha de Marajó foram obtidas as idades mais antigas da matéria orgânica em sedimentos de um paleocanal. Neste local, no intervalo Pleistoceno Superior-Holoceno Inferior, os dados isotópicos do carbono são característicos de plantas C3, com exceção de dois pontos correspondentes a 16.118 ± 60 anos AP e aproximadamente 13.000 anos AP, com valores de \'delta\' 13CPDB de -20,4 e -22,1 respectivamente. A relação entre os resultados isotópicos do carbono e nitrogênio indicam a presença de plantas terrestres (gramíneas C4) nesta região, atualmente ocupada por vegetação arbórea, provavelmente associada a clima mais seco. A presença de fragmentos vegetais carbonizados e minerais instáveis ao intemperismo químico como feldspato, hornblenda e biotita nos sedimentos, confirmam a hipótese. Nos demais pontos analisados, durante o Holoceno Médio/Superior (entre aproximadamente 5.000 a 3.000 anos AP) os dados isotópicos do carbono e de fragmentos vegetais carbonizados indicam que uma vegetação constituída por plantas C3 (arbóreas) no setor leste da ilha foi gradativamente substituída por gramíneas C4, iniciando a formação dos atuais campos na Ilha de Marajó, associados a um clima mais seco. Neste mesmo período os canais foram sendo abandonados, como indicado pela granodecrescência ascendente dos sedimentos de paleocanais e mudança da coloração (de cinza para marrom alaranjado) dos sedimentos argilosos da planície de inundação, associados à deposição em um ambiente redutor para um ambiente oxidante. No intervalo redutor, em alguns perfis houve a formação de pirita e jarosita. Estudos anteriores mostram que o processo de abandono de canais está associado a eventos de tectônica cenozóica na região. Os dados isotópicos de carbono mais enriquecidos observados no setor sudoeste da ilha, indicam no período de ~7000 a 3000 anos AP, uma abertura da vegetação arbórea e/ou a presença de plantas C4, associados a um período mais seco. Durante o Holoceno Superior os canais foram preenchidos e abandonados. O empobrecimento isotópico do carbono da matéria orgânica indica a implantação da vegetação arbórea sobre os mesmos, estabelecendo a condição atual observada no setor leste da Ilha com paleocanais com vegetação de cobertura arbórea (plantas C3) e planície de inundação com vegetação de campos (plantas C3 e C4). Aanálise de espículas de esponjas e isótopos de nitrogênio apontam o setor leste como um sistema deposicional transicional (estuarino) durante o Quaternário Tardio. / Considered the largest fluvial-marine island of the world, with approximately 48.000 km2, the Marajó Island is located in the Brazilian equatorial area, in the Pará State coast. It presents two different domains related to the geology and vegetation. In the west domain dominate soils developed on Pós Barreiras sediments (plio-pleistocenics) covered by the Amazonian Forest, while in the east domain dominate holocenic sediments derived of fluvial/estuarine environment, at present deactivated. In this sector are located the natural savanna. The objective of this work consisted of to apply the carbon isotopes (12C, 13C and 14C) of soil and sediment organic matter, in order to evaluate possible changes in the vegetation domains, in terms of C3 and C4 plants during the Late Quaternary, and inferences about their causes. The results were associated with field observations, petrographic, sedimentologic, chemical, sponge spicules and nitrogen isotope analyses and bibliography, being possible to distinguish three environmental changes related to the geology and vegetation in the eastern Marajó Island during Late Pleistocene (approximately 16.000 years BP) to the Holocene. In the central section of the Marajó Island were obtained the oldest ages of the sediment organic matter of a paleochannel. In this place, in the interval Late Pleistocene - Early Holocene, the carbon isotope data are characteristic of C3 plants, except for two points corresponding to 16.118 ± 60 years BP and approximately 13.000 years BP, with values of \'delta\' 13CPDB of -20,4 and -22,1 , respectively. The relation between the carbon and nitrogen isotopes data, indicate the presence of terrestrial plants (C4 grass) in this area, at present covered by arboreal vegetation, probably associated to a drier climate. The presence of charred wood fragments and unstable minerals to the chemical weathering as feldspar, hornblend and biotite in the sediments, confirm the hypothesis. In other points, during Middle/Late Holocene (between ~5.000 and 3.000 years BP) the carbon isotopes and charred wood fragments data, indicate that a vegetation constituted of C3 plants (trees) in the eastern sector of the island, was gradually substituted by C4 grasses, initiating the formation of savanna vegetation in the Marajó Island, associated to a drier climate. In this same period, the channels were abandoned, as indicated by the fining upward the paleochannel sediments and the color change (grey to brown orange) of the clayey sediments of the floodplain, associated to the deposition of a reducing environment to an oxidizing environment. In the reducing interval, in some profiles it was observed the formation of pirite and jarosite. Previous studies show that the channels abandonment processes is associated to tectonic Cenozoic events in the area. The more enriched isotope carbon data of soil organic matter observed in the Southwestern sector of the island, indicated in the period of ~7.000 and 3.000 years BP, an opening of the arboreal vegetation and/or the presence of C4 plants, probably associated to a drier climate. During the Late Holocene the channels were filled out and abandoned. More depleted carbon isotope data of the organic matter, indicates the implementation of the arboreal vegetation on the channels, establishing the modern conditions observed at the eastern section of the Island, with paleochannels covered by arboreal vegetation (C3 plants) and the floodplain covered by grassland vegetation (C3 and C4 plants). The sponge spicules and nitrogen isotope analysis, indicate the eastern section as a transitional deposition system (estuarine) during the Late Quaternary

Clima

Ilha de Marajó

Isótopos do carbono

Quaternário Tardio

Vegetação

Carbon isotopes

Climate

Late Quaternary

Marajó Island

Vegetation

Réponse de la productivité diatomique aux changements climatiques et océanographiques au niveau du système turbiditique du Congo au cours du dernier million d'années / Diatom response to oceanographic and climatic changes in the Congo deep sea fan area during the last million years

Hatin, Tristan

22 September 2016

Pour préciser l’architecture du système turbiditique du Congo (marge Ouest-Africaine, Atlantique Sud-Est), et les variations climatiques et paléocéanographiques de la zone au cours du dernier million d’années, on a étudié les variations de la productivité des diatomées sur deux carottes de référence, KZAI-02 et RZCS-26, prélevées respectivement à 248 et 800 Kms de l’embouchure du fleuve. Cette étude est intégrée au projet REPREZAÏ, REtrogradation/PRogradation dans l’Eventail du ZAÏre, Les périodes de forte productivité diatomique sont observées vers le milieu du stade MIS6, le MIS 5d, et durant le MIS 3, liées à l’apport de nutriments, notamment la silice dissoute, par le fleuve. Les faibles taux d’accumulation en diatomées sont enregistrés au début et à la fin du MIS 6, le MIS 5e, le début du MIS 4 et l’Holocène, quand la charge terrigène dans les eaux de surface empêche la mise en place d’une forte productivité. Au large il faut un apport conséquent de silice dissoute via les décharges du fleuve, et une faible consommation de ce nutriment en amont, pour avoir une forte productivité. L’intensification des conditions d’upwelling océanique favorise la productivité diatomique. L’abondance des diatomées d’estuaires saumâtres coïncide avec l’augmentation de l’influence des décharges fluviatiles vers ~230 ka BP, période de mise en place de l’édifice axial du système turbiditique du Congo. Deux études exploratoires ont été menées en complément: L’étude de la variabilité morphométrique de l’espèce Fragilariopsis doliolus qui montre une variation importante de la surface valvaire au cours du Quaternaire ; l’étude des isotopes de la silice qui s’est avérée complexe, à cause du mélange important de silice biogénique et lithogénique dans nos échantillons. / To precise the evolution of the Congo deep sea fan (western African margin, eastern tropical South Atlantic), and the paleoclimatic and paleoceanographic conditions of the zone during the last million years, variations of diatom productivity have been studied on two reference cores, KZAI-02 and RZCS-26, located respectively at 240 and 800 Kms of the Congo river mouth. This study is part of the REPREZAI project, REtrogradation/PRogradation in the ZAÏre deep-sea fan. High diatom accumulation rates were registered during the mid-part of MIS 6, the cold substage MIS 5d and the MIS 3-2, sustained essentially via nutrients, including dissolved silica, injected by the Congo River into the ocean. Low diatom accumulation rates were recorded during the early and late MIS 6, the MIS 5e, the early MIS 4 and the Holocene, when the terrigenous load in surface waters prevent a strong productivity. Further offshore, a substantial dissolved silica input by the discharges of the Congo river, but also a low consumption of this nutrient upstream, are required to have a strong productivity. The intensification of oceanic upwelling conditions also favors the siliceous productivity. The increasing influence of fluvial discharges, marked by a greater abundance of brackish diatoms off the mouth, corresponds fairly well to the establishment of the axial edifice of the Congo deep sea fan around ~ 230 ka BP. Two exploratory studies were conducted in complement: The study of morphometric variability of the diatom species Fragilariopsis doliolus, that highlighted important variation of the valvar surface during the Quaternary; the study of the silica isotopes that proved to be complex, because of important mix of biogenic and lithogenic silica in the samples.

Diatomées

Productivité

Quaternaire

Système turbiditique du Congo

Silice

Diatoms

Productivity

Late Quaternary

Congo fan area

Silica

579.85

Niche Modeling for the Genus Pogona (Squamata: Agamidae) in Australia: Predicting Past (Late Quaternary) and Future (2070) Areas of Suitable Habitat

Rej, Julie E., Joyner, T. Andrew

01 January 2018

Background: As the climate warms, many species of reptiles are at risk of habitat loss and ultimately extinction. Locations of suitable habitat in the past, present, and future were modeled for several lizard species using MaxEnt, incorporating climatic variables related to temperature and precipitation. In this study, we predict where there is currently suitable habitat for the genus Pogona and potential shifts in habitat suitability in the past and future. Methods: Georeferenced occurrence records were obtained from the Global Biodiversity Information Facility, climate variables (describing temperature and precipitation) were obtained from WorldClim, and a vegetation index was obtained from AVHRR satellite data. Matching climate variables were downloaded for three different past time periods (mid-Holocene, Last Glacial Maximum, and Last Interglacial) and two different future projections representative concentration pathways (RCPs 2.6 and 8.5). MaxEnt produced accuracy metrics, response curves, and probability surfaces. For each species, parameters were adjusted for the best possible output that was biologically informative. Results: Model results predicted that in the past, there was little suitable habitat for P. henrylawsoni and P. microlepidota within the areas of their current range. Past areas of suitable habitat for P. barbata were predicted to be similar to the current prediction. Pogona minor and P. nullarbor were predicted to have had a more expansive range of suitable habitat in the past, which has reduced over time. P. vitticeps was predicted to have less suitable habitat in the past when examining the region of their known occurrence; however, there was predicted growth in suitable habitat in Western Australia. Both 2070 models predict a similar distribution of habitat; however, the model produced using the 2070 RCP 8.5 climate change projection showed a larger change, both in areas of suitable habitat gain and loss. In the future, P. henrylawsoni and P. microlepidota might gain suitable habitat, while the other four species could possibly suffer habitat loss. Discussion: Based on the model results, P. henrylawsoni and P. microlepidota had minimal areas of suitable habitat during the Last Glacial Maximum, possibly due to changes in tolerance or data/model limitations, especially since genetic analyses for these species suggest a much earlier emergence. The predicted late Quaternary habitat results for all species of Pogona are conservative and should be compared to the fossil record which is not possible at the moment due to the current inability to identify fossil Pogona to the species level. P. nullarbor and P. vitticeps future models predict substantial habitat loss. P. nullarbor could potentially be considered vulnerable in the present since it already has a restricted range, and a conservation plan may need to be considered.

Agamidae

Australia

climate change

conservation

future 2070

late quaternary

MaxEnt

niche modeling

Pogona

squamate

Geosciences

Late Quaternary vegetation history of Craven, Yorkshire Dales.

Rushworth, Garry

January 2010

This thesis investigates new late Quaternary vegetation records from four sites in the Craven District of the Yorkshire Dales. The chosen sites fall along an east-west transect broadly following the line of the south Craven Fault. The rationale for site selection was not based on conventional palynological considerations of potential for rich core samples, rather to provide a range of different locations within a distinct micro-region each existing in some specific proximity to known archaeological features. The logic was to attempt to get beyond broad ¿natural¿ climatological and vegetational inferences to understand the nature and level of potential anthropogenically produced change at a local scale as a sub-set of natural change in a broader regional zone over time. The sites reveal varied vegetation histories from the Late Glacial period to the present day and all show signs of being influenced by changes in their arboreal structure at some time, although no two sites have exactly the same vegetation communities until around 5000 BP when the tree canopy is opened to allow an open grassland to dominate. The results indicate the possibility that Betula values, in particular, might indicate cooling events found in the Greenland ice cores for Greenland Interstadial 1 as well as the Pre-boreal Oscillation and the Holocene 9.3 ka BP Event. Closer chronological control of such values could help to determine whether vegetational dynamics were synchronous with fluctuations in temperature and the speed with which trees respond to severe temperature fluctuations. Various hiatuses identified during analysis of the cores may be caused by human influence on the wetlands, given that archaeological evidence from caves shows human occupation of the Craven area from the late Upper Palaeolithic onwards. / Natural Environment Research Council

Vegetation

Craven District, Yorkshire Dales

Craven fault

Late Quaternary

Betula values

Vegetational dynamics

Palynology, phytoliths, diatoms and wood in the West Mouth: stratigraphic and taphonomic studies of Late Quaternary vegetation history

Hunt, C., Kealhofer, L., Premathilake, R., Rushworth, Garry, Gilbertson, D., Jones, S., Thompson, Gill B.

January 2016

No

Palynology

Pollen

Taphonomy

Phytoliths

Stratigraphic studies

Late Quaternary vegetation history

Sarawak

Niah caves

West Mouth

Évolution paléoclimatique et paléohydrologique de la Méditerranée occidentale au cours des derniers 30 000 ans : contribution des dinokystes et des foraminifères planctoniques

Rouis-Zargouni, Imène

13 February 2010

Cinq carottes de la Méditerranée occidentale ont fait l’objet des approches multidisciplinaires basées essentiellement sur l'analyse des dinokystes, des foraminifères planctoniques et des isotopes afin d'identifier et préciser l'évolution climatique de ce bassin. L'ensemble de l'Holocène correspond au maximum de développement des dinokystes S. mirabilis et I. aculeatum et des foraminifères planctoniques G. inflata et G. ruber tandis que les épisodes froids sont caractérisés par la présence de Nematosphaeropsis labyrinthus et a un degré moindre de Spiniferites elongatus. Si dans la proximité du détroit de Gibraltar il est possible de distinguer les évènements de Heinrich du Maximum Glaciaire (LGM) cette distinction est moins évidente en se dirigeant vers l’Est. Au contraire le Younger Dryas s’exprime de façon identique sur l'ensemble du bassin occidental et se caractérise par le développement optimal de N. labyrinthus s’accompagnant d’après les fonctions de transfert dinos d’une baisse importante de la salinité. Cet épisode est marqué aussi par des concentrations maximales de dinokystes remarquablement corrélées à une augmentation du ?13C de G. bulloides. Cette augmentation de la productivité primaire au Dryas Récent est à relier à l’intensification des échanges Méditerranée-Atlantique. Par opposition, l'Holocène inférieur montre une baisse de la productivité primaire en Méditerranée occidentale contemporaine de la mise en place du sapropéle S1 dans le bassin oriental. Comme dans l'océan Atlantique, le refroidissement du "8.2 event" est clairement observée en Méditerranée occidentale ainsi que trois autres épisodes correspondant à ~9,3 ka; ~7 ka et ~2,7 ka cal. BP. / A multidisciplinary approach is occurred on five western Mediterranean cores based on dinocysts, planktonic foraminifera and isotopes to identify the climatic evolution of this region. The Holocene correspond to the maximal development of dinocysts S. mirabis and I. aculeatum and planktonic foraminifera G. inflata and G. ruber but the cold periods are characterised by the presence of N. labyrinthus and Spiniferites elongatus. The microfaunistic assemblages show that it's less easier to distinguish the LGM to Heinrich events (HE) when the study sites are far to strait of Gibraltar. The Younger Dryas is marked by the optimal development of N. labyrinthus on the entire basin in association to an important decrease of Sea Surface Salinity reconstructed on the basis of dinocyst transfer function. During this period, an intensification of Mediterranean-Atlantic water masses exchange is recorded by the increase of the ?13C of G. bulloides associated to the maximal dinocysts concentration. By contrast, the lower Holocene shows a decrease of primary productivity in western Mediterranean contemporaneous to the deposition of S1 sapropel in eastern basin. As in Atlantic Ocean, the 8.2 event is clearly observed in western Med with three other cold events at 9.3 ka, 7 ka and 2.7 ka cal. BP.

Dinokystes

Sapropéle

Foraminifères planctoniques

Quaternaire terminal

Isotopes

Productivité

Méditerranée occidentale

Dinocysts

Sapropel

Planktonic foraminifera

Late Quaternary

Isotopes

Productivity

Western Mediterranean

Impacts des changements environnementaux passés durant le Quaternaire récent sur la dynamique forestière du Moyen Atlas marocain / Impacts of past environmetal changes during the late Quaternary on forest dynamics of the Middle Atlas of Morocco

Tabel, Jalal

18 December 2015

Le sujet de ma thèse traite les changements paléoenvironnementaux et paléoclimatiques qui ont affecté les écosystèmes du Moyen Atlas marocain depuis la dernière période glaciaire, centrée autour de 25,000 cal BP. Les trois séquences sédimentaires étudiées dans cette thèse ont été prélevées le long d'un transect Nord-Sud dans le Moyen Atlas. Cette étude est basée sur une approche multi-bioindicateurs intégrant la palynologie, la géochimie élémentaire et la granulométrie afin de comprendre la dynamique des écosystèmes passés et de mettre en évidence les impacts anthropiques sur ces écosystèmes et leurs bassins versants. Les résultats obtenus montrent que durant la dernière période glaciaire et jusqu’au début de l’holocène, une végétation steppique a dominé les paysages du Moyen Atlas en réponse à des conditions climatiques froides et arides. Cependant, des populations de cèdres, de chênes et de pins ont persisté durant la période glaciaire dans des micro-refuges. Bien que le début de l’holocène révèle une expansion des chênes et des pins (principaux composants des écosystèmes forestiers méditerranéens), la steppe (composée d'armoise, de chénopodiacées et de graminées) a persisté jusqu’à 6.5 ka cal BP. Ces écosystèmes tolérant à la sécheresse reflètent un début de l’holocène chaud mais avec une quantité de précipitations annuelles assez réduite pour permettre l'expansion des forêts tel que nous l'observons en Europe et d’autres régions de la Méditerranée. Ce n'est qu'à partir de 6.5 ka cal BP que les forêts de cèdre s’installent aux altitudes des sites étudiés (autour de 1600m) et que des plantes aquatiques prolifèrent dans les marais ou nous avons effectué les sondages. Nous observons ensuite une nette régression du couvert arboré à partir de 4.5 ka cal BP, notamment les chênes décidus, et une expansion des taxons herbacés. Ceci est le résultat d’une tendance vers des conditions plus arides témoignant d'une installation du climat méditerranéen tel que nous le connaissons aujourd'hui. Le début des changements environnementaux liés à l'impact humain, à travers les données palynologiques et géochimiques, n'est enregistré qu’à partir de ca. 1500 cal BP. Les résultats obtenus dans cette thèse sont en accord avec ceux d'autres études paléoenvironnementales menées en Méditerranée autant pour la période glaciaire que pour le début des conditions arides à partir de 5.5 ka cal BP. / This thesis discusses the paleoenvironmental and paleoclimatic changes that have affected the ecosystems of the Moroccan Middle Atlas since the last glacial period, and focuses around 25000 cal BP. The three sedimentary sequences that have been studied in this thesis were taken along a North-South transect in the Middle Atlas. This study is based on a multi-bio-indicators approach, including palynology, geochemical elements and particle size, in order to better understand the dynamic of previous ecosystems and to highlight the human activities on these ecosystems and on their catchment areas.The results obtained show that during the last glacial period, and until the beginning of the Holocene, steppe vegetation was predominant in the Middle Atlas, in reaction to cold and arid climate conditions. However, populations of cedars, oaks and pine trees remained in micro-refugia. Although the beginning of the Holocene reveals an expansion of oaks and pines trees (the main components of Mediterranean forests ecosystems), the steppe (which is composed of Artemisia, Chenopodiaceae and grasses) persisted till 6.5 ka cal BP. These drought-tolerant ecosystems reflect a warm beginning of the Holocene, with an amount of precipitation that was low enough to allow the expansion of forests similar to those we can observe in Europe and other areas of the Mediterranean. It’s only since 6.5 ka cal BP that cedars forests have started to grow at the altitudes of the sites we studied (around 1600m), and that aquatic plants have proliferated in the marshes where we took our samples. We can then observe a sharp decline of tree cover, including deciduous oaks, starting 4.5 ka cal BP and an expansion of herbaceous taxa. These are the consequences of a tendency to conditions that were more arid, attesting the installation of the Mediterranean climate as we know it today. The first environmental changes linked to human impact have only been recorded, through palynology and biochemical data, from ca. 1500 cal BP. The results obtained in this thesis are in line with those obtained in other paleoenvironmental studies conducted in the Mediterranean area, for the glacial period as well as for the beginning of arid conditions starting 5.5 ka cal BP.

Moyen Atlas

Paléoenvironnement

Quaternaire récent

La dernière période glaciaire

Holocène

Pollen

Middle Atlas

Paleoenvironment

Late Quaternary

The last glacial period

Holocene

Pollen

Late Quaternary fluvial system response to climatic change over the past 200ka on Mallorca, Illes Balears

Thompson, Warren

January 2017

Outcrops of late Quaternary deposits along the north–east coast of Mallorca were examined, and a high resolution chronological framework established using optically stimulated luminescence of quartz and feldspar grains. Coastal sections at Es Barrancar and Cala Mata record a complex succession of alluvial fan deposition with a minor aeolian component, mainly deposited during the last two glacial cycles. For the last ~200ka different orbital configurations appear to have produced a series of subtly different climatic scenarios that resulted in great variations in the regional availability of moisture. In turn, each of these climatic scenarios set in motion a distinct set of sedimentary processes, which imprinted themselves upon the character of fluvial system response recorded in the alluvial archives on Mallorca. Within the resulting complex of sediments were units of fluvially reworked aeolianite which, although truncated in places, were traceable laterally along wide sections of the sea front outcrops of both fan systems. These archives yielded 47 new OSL and pIRIR290 ages which suggest a number of previously unrecognised periods of enhanced fluvial activity. Luminescence ages identify significant ephemeral fluvial activity taking place during MIS 6, MIS 5 sub-stages d/c, b/a, and across the MIS 5/4 boundary. Another major phase of reworking corresponds with the middle part of MIS 3, and continued sporadically into the Last Glacial Maximum. These fluvial reworking events have been interpreted as having taken place during cold arid climatic intervals, when vegetation was at a minimum, precipitation was low and displayed a much higher degree of seasonality, enhancing the effects of runoff.

Análise de fitólitos aplicada a reconstrução paleoambiental (vegetação e clima) na superfície incompletamente aplainada VI – Campo Erê (SC) no pleistoceno tardio / Phytolith analysis applied to paleoenvironmental reconstruction (vegetation and climate) of incomplete planation surface VI - Campo Erê (SC) in the late pleistocene

Cecchet, Fernanda Aparecida

02 June 2015

Made available in DSpace on 2017-07-10T17:30:42Z (GMT). No. of bitstreams: 1 Fernanda_Aparecida_Cecchet.pdf: 2558165 bytes, checksum: 7a6a064ee39d74a02d320b1990f0d41d (MD5) Previous issue date: 2015-06-02 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Phytoliths are microscopic particles of silica, or biomineralizations, formed during the growth of the plant, through the absorption of dissolved monosilicic acid (H4SiO4) solute from the soil. Phytoliths remain preserved in soil under certain environmental conditions making them a great ally in paleoenvironmental reconstruction studies. In South-West Paraná and North-West Santa Catarina, where there were large areas of Araucaria moist forests (AMF), the Genesis and Evolution of Geomorphological Surfaces and Surface Formations research group (GPGESGFS) has carried out dedicated research using diverse biological proxies, including phytoliths, in order to understand the principal factors and processes which were active in the formation of the current relief and in the evolution of the landscape of this region. Considering the hypothesis of environmental changes (climate and vegetation) in the South of Brazil during the Pleistocene/Holocene, the present study has as its main objective understanding the environmental dynamic during the Late Pleistocene and Holocene, which may have acted on the evolution of the landscape of Campo Erê (SC), incomplete planation surface VI. The results obtained through routine physical and chemical analyses of the phytolith assemblage, the ratios of the stable carbon isotopes and 14C dating of the humin fraction, have enabled us to conclude that the soil studied in Campo Erê (SC), a typical distroferric red nitosol with humic A horizon, developed in situ through pedogenic evolution from the material of origin, basalt. Since the middle of the last glacial maximum (18.060-17.845 Years Cal. BP.) this profile developed beneath vegetation, possibly less leafy than the current vegetation, with a mixture of C3 (grasses, trees and bushes) and C4 (grasses) plants. This pattern of vegetation remained until the beginning of the Holocene (8.055-7.960 Years Cal. BP.) From the Middle Holocene on, there occurred an opening up of the vegetation, marked by greater participation of C4 grasses, possibly a campo sujo (a herbaceous layer with occasional small trees), shown as much by the isotopic signal as by the phytolith assemblage. This vegetation lasted until approximately 1.875-1.715 years Cal BP, once again becoming vegetation formed predominantly by C3 plant species of photosynthetic cycle, until the formation of the current AMF found in the study area. At no time were signs of dense tree formation detected, but instead leafy vegetation, which was at times more open and at others more closed. This characteristic is prominent in the vegetation of the south of Brazil, where extensive areas of AMF are surrounded by grasslands forming great mosaics on the landscape. All the climatic oscillations, however small, reflect the retreat or advance of this forest over grassland or vice-versa / Fitólitos são microscópicas partículas de sílica ou biomineralizações formadas devido à absorção do ácido monossílico (H4SiO4) dissolvido do soluto do solo durante o crescimento da planta. Os fitólitos ficam preservados no solo em determinadas condições ambientais tornando-se um grande aliado em estudos de reconstrução paleoambiental. No Sudoeste do Paraná e Noroeste de Santa Catarina, onde ocorriam grandes área de Floresta Ombrófila Mista (FOM), o Grupo de Pesquisa Gênese e Evolução de Superfícies Geomorfológicas e Formação Superficiais (GPGESGFS) tem se dedicado às pesquisas usando diversos proxies biológicos inclusive os fitólitos para compreender quais foram os principais fatores e processos que atuaram na formação do atual relevo e na evolução da paisagem nessa região. Considerando a hipótese de mudanças ambientais (clima e vegetação) no Sul do Brasil durante o Pleistoceno/Holoceno o presente estudo tem como objetivo principal compreender a dinâmica ambiental ao longo do Pleistoceno Tardio e Holoceno , que pode ter atuado na evolução da paisagem na região de Campo Erê (SC), superfície incompletamente aplainada VI. Os resultados obtidos através das análises físicas e químicas de rotina, de assembleia de fitólitos, as razões de isótopos estáveis de carbono e datações por 14C da fração humina, permitiram concluir que o solo estudado em Campo Erê (SC), um NITOSSOLO VERMELHO Distroférrico típico com horizonte A húmico, se desenvolveu in situ através de evolução pedogenética a partir do material de origem, o basalto. Desde meados do Ultimo Maximo Glacial (18.060-17.845 Anos Cal. AP.) este perfil se desenvolveu sob uma vegetação, possivelmente menos arborizada que a atual, com mistura de plantas C3 (gramíneas, árvores e arbustos) e C4 (gramíneas). Este padrão de vegetação se manteve até o inicio do Holoceno (8.055-7.960 Anos Cal. AP.). A partir do Holoceno médio ocorreu uma abertura da vegetação, marcada pela maior participação de gramíneas C4, possivelmente um campo sujo, evidenciada tanto pelo sinal isotópico, quanto pela assembleia fitolítica. Essa vegetação perdurou até aproximadamente 1.875-1.715 anos Cal AP, tornando-se novamente uma vegetação formada predominantemente por espécie de plantas de ciclo fotossintético C3 até a formação da atual FOM encontrada na área de estudo. Em nenhum momento detectou-se sinais de uma formação arbórea densa, mas sim uma vegetação arborizada que por vezes esteve mais aberta e por vezes mais fechada. Essa característica é eminente da vegetação do sul do Brasil onde extensas áreas de FOM são cercadas por campos formando grandes mosaicos na paisagem. Todas as oscilações climáticas, por menores que sejam, refletem o retrocesso ou o avanço dessa floresta sob o campo ou vice-versa.

Reconstrução paleoambiental

Solo

Proxys biológicos

Quaternário tardio

Paleoenvironmental reconstruction

Soil

Biological proxies

Late quaternary tardio

CIENCIAS HUMANAS::GEOGRAFIA

Análise de fitólitos aplicada a reconstrução paleoambiental (vegetação e clima) na superfície incompletamente aplainada VI Campo Erê (SC) no pleistoceno tardio / Phytolith analysis applied to paleoenvironmental reconstruction (vegetation and climate) of incomplete planation surface VI - Campo Erê (SC) in the late pleistocene

Cecchet, Fernanda Aparecida

02 June 2015

Made available in DSpace on 2017-05-12T14:42:14Z (GMT). No. of bitstreams: 1 Fernanda_Aparecida_Cecchet.pdf: 2558165 bytes, checksum: 7a6a064ee39d74a02d320b1990f0d41d (MD5) Previous issue date: 2015-06-02 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / Phytoliths are microscopic particles of silica, or biomineralizations, formed during the growth of the plant, through the absorption of dissolved monosilicic acid (H4SiO4) solute from the soil. Phytoliths remain preserved in soil under certain environmental conditions making them a great ally in paleoenvironmental reconstruction studies. In South-West Paraná and North-West Santa Catarina, where there were large areas of Araucaria moist forests (AMF), the Genesis and Evolution of Geomorphological Surfaces and Surface Formations research group (GPGESGFS) has carried out dedicated research using diverse biological proxies, including phytoliths, in order to understand the principal factors and processes which were active in the formation of the current relief and in the evolution of the landscape of this region. Considering the hypothesis of environmental changes (climate and vegetation) in the South of Brazil during the Pleistocene/Holocene, the present study has as its main objective understanding the environmental dynamic during the Late Pleistocene and Holocene, which may have acted on the evolution of the landscape of Campo Erê (SC), incomplete planation surface VI. The results obtained through routine physical and chemical analyses of the phytolith assemblage, the ratios of the stable carbon isotopes and 14C dating of the humin fraction, have enabled us to conclude that the soil studied in Campo Erê (SC), a typical distroferric red nitosol with humic A horizon, developed in situ through pedogenic evolution from the material of origin, basalt. Since the middle of the last glacial maximum (18.060-17.845 Years Cal. BP.) this profile developed beneath vegetation, possibly less leafy than the current vegetation, with a mixture of C3 (grasses, trees and bushes) and C4 (grasses) plants. This pattern of vegetation remained until the beginning of the Holocene (8.055-7.960 Years Cal. BP.) From the Middle Holocene on, there occurred an opening up of the vegetation, marked by greater participation of C4 grasses, possibly a campo sujo (a herbaceous layer with occasional small trees), shown as much by the isotopic signal as by the phytolith assemblage. This vegetation lasted until approximately 1.875-1.715 years Cal BP, once again becoming vegetation formed predominantly by C3 plant species of photosynthetic cycle, until the formation of the current AMF found in the study area. At no time were signs of dense tree formation detected, but instead leafy vegetation, which was at times more open and at others more closed. This characteristic is prominent in the vegetation of the south of Brazil, where extensive areas of AMF are surrounded by grasslands forming great mosaics on the landscape. All the climatic oscillations, however small, reflect the retreat or advance of this forest over grassland or vice-versa / Fitólitos são microscópicas partículas de sílica ou biomineralizações formadas devido à absorção do ácido monossílico (H4SiO4) dissolvido do soluto do solo durante o crescimento da planta. Os fitólitos ficam preservados no solo em determinadas condições ambientais tornando-se um grande aliado em estudos de reconstrução paleoambiental. No Sudoeste do Paraná e Noroeste de Santa Catarina, onde ocorriam grandes área de Floresta Ombrófila Mista (FOM), o Grupo de Pesquisa Gênese e Evolução de Superfícies Geomorfológicas e Formação Superficiais (GPGESGFS) tem se dedicado às pesquisas usando diversos proxies biológicos inclusive os fitólitos para compreender quais foram os principais fatores e processos que atuaram na formação do atual relevo e na evolução da paisagem nessa região. Considerando a hipótese de mudanças ambientais (clima e vegetação) no Sul do Brasil durante o Pleistoceno/Holoceno o presente estudo tem como objetivo principal compreender a dinâmica ambiental ao longo do Pleistoceno Tardio e Holoceno , que pode ter atuado na evolução da paisagem na região de Campo Erê (SC), superfície incompletamente aplainada VI. Os resultados obtidos através das análises físicas e químicas de rotina, de assembleia de fitólitos, as razões de isótopos estáveis de carbono e datações por 14C da fração humina, permitiram concluir que o solo estudado em Campo Erê (SC), um NITOSSOLO VERMELHO Distroférrico típico com horizonte A húmico, se desenvolveu in situ através de evolução pedogenética a partir do material de origem, o basalto. Desde meados do Ultimo Maximo Glacial (18.060-17.845 Anos Cal. AP.) este perfil se desenvolveu sob uma vegetação, possivelmente menos arborizada que a atual, com mistura de plantas C3 (gramíneas, árvores e arbustos) e C4 (gramíneas). Este padrão de vegetação se manteve até o inicio do Holoceno (8.055-7.960 Anos Cal. AP.). A partir do Holoceno médio ocorreu uma abertura da vegetação, marcada pela maior participação de gramíneas C4, possivelmente um campo sujo, evidenciada tanto pelo sinal isotópico, quanto pela assembleia fitolítica. Essa vegetação perdurou até aproximadamente 1.875-1.715 anos Cal AP, tornando-se novamente uma vegetação formada predominantemente por espécie de plantas de ciclo fotossintético C3 até a formação da atual FOM encontrada na área de estudo. Em nenhum momento detectou-se sinais de uma formação arbórea densa, mas sim uma vegetação arborizada que por vezes esteve mais aberta e por vezes mais fechada. Essa característica é eminente da vegetação do sul do Brasil onde extensas áreas de FOM são cercadas por campos formando grandes mosaicos na paisagem. Todas as oscilações climáticas, por menores que sejam, refletem o retrocesso ou o avanço dessa floresta sob o campo ou vice-versa.

Reconstrução paleoambiental

Solo

Proxys biológicos

Quaternário tardio

Paleoenvironmental reconstruction

Soil

Biological proxies

Late quaternary tardio

CNPQ::CIENCIAS HUMANAS::GEOGRAFIA