A Twittosfera Baré como um ecossistema para o exercício da web cidadania

Silva, Cleamy Marialva de Albuquerque

12 December 2011

Made available in DSpace on 2015-04-22T22:04:16Z (GMT). No. of bitstreams: 1 Cleamy_M_A_Silva.pdf: 5590472 bytes, checksum: c80a1c4f1ae7d8c7ca6a5cd74fd02f95 (MD5) Previous issue date: 2011-12-12 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / The microblogging service Twitter as a communication ecosystem functions as a mirror of society, which are reproduced in various types of relationships between interacting even conflicts. To achieve the overall goal of this dissertation, which was to analyze the communication process that happens inside and out, Twitter support, in Manaus, with reference to a case of Web Citizenship, three steps were covered. At first, we investigated the possibilities of political participation through the World Wide Web. In the second, we identified how the popularity of social networks in the digital platform can contribute to the strengthening of democracy and for monitoring the actions of citizens. Finally, analyze the profile of Twitter users in Manaus, as well as the use they make of it. Regarding the methodology, the effort in the interpretation of the object of this study walked toward a research ethnographic in internet. We conclude that the interactions can reverberate in the Twitter ecosystem not virtual environment, as this influences the first. Thoughts before existing, but not always shared, from the creation of this specific platform to record them briefly motivated people to do it with other people or even with anyone, as a kind of release. What is even not always received positively by interacting. Unlike the time lived under the dictatorship of the military, which is paid to physical integrity and freedom to think so discordant, the punishment is different today, but also cruel, as it strikes a personal and professional image. / O serviço de microblog Twitter, como um ecossistema de comunicação, funciona como um espelho da sociedade, no qual são reproduzidas diversos tipo de relações entre interagentes, inclusive, os conflitos. Para atingir o objetivo geral dessa dissertação, que era analisar o processo comunicativo que acontece dentro, e a partir, do suporte Twitter, em Manaus, tendo como referência um caso de Web Cidadania, foram percorridas três etapas. Na primeira, investigou-se as possibilidades de participação política por meio da rede mundial de computadores. Na segunda, identificou-se de que forma a popularização das redes sociais na plataforma digital podem contribuir para o fortalecimento da democracia e para vigilância das ações dos cidadãos. Por fim, analizou-se o perfil dos usuários do Twitter em Manaus, bem como o uso que fazem da mesma. Quanto à metodologia, o esforço na interpretação do objeto deste estudo caminhou na direção de uma pesquisa netnográfica. Concluímos que as interações existentes no ecossistema Twitter podem reverberar no ambiente não virtual, assim como este influencia o primeiro. Pensamentos, antes já existentes, mas nem sempre compartilhados, a partir da criação dessa plataforma específica para registrá-los sucintamente, motivou as pessoas a fazê-lo com outros usuários ou até mesmo com ninguém, como uma espécie de desabafo. O que nem sempre nem é recebido de forma positiva pelos interagentes. Diferente da época vivida sob a ditadura dos militares, na qual se pagava com liberdade e integridade física por pensar de forma discordante, hoje a punição é diferente, mas igualmente cruel, pois atinge a imagem pessoal e profissional.

Twittosfera

Ecossistema

Ciberativismo

Ecosystem

Cyberactivism

A multiscale perspective of water resources and ecosystem services

McDonough, Kelsey Rose

January 1900

Doctor of Philosophy / Department of Biological & Agricultural Engineering / Stacy L. Hutchinson / Water security is one of the greatest challenges of this century. The anthropogenic and environmental demand for water could likely outpace the freshwater availability in the future due to challenges caused by the growing world population, technological and economic advancements, and climate change. The ability to ensure adequate quantities of safe, affordable, and accessible water in the future requires innovative and interdisciplinary approaches to water management using a systems perspective across multiple spatial and temporal scales. This dissertation provides a multi-scale perspective of water resources and associated ecosystem services to understand drivers of change in surface water availability across spatiotemporal scales. The ultimate goal of this work is to advance the development of water security solutions by contributing to the current water resources and ecosystem services knowledge base.

water resources

ecosystem services

spatial

temporal

water security

Revealing Promising Pathways for Increasing Urban Ecosystem Services: An Approach Combining Stakeholder Priorities with Ecosystem Service Quantification

Elderbrock, Evan

11 January 2019

Urban development diminishes the delivery of ecosystem services (ES), defined as benefits from ecological processes and functions critical to human health and well-being. Land-use planners and environmental managers are increasingly familiar with the concept of ES; however, methods for incorporating ES into urban planning are underdeveloped. While previous reports have identified the combination of ES quantification and stakeholder engagement as necessary for increasing the delivery of ES, methods of implementation remain unexplored. To address this disparity, this study combines ES quantification with perspectives from multiple stakeholders to identify specific land cover conversion scenarios that increase the delivery of ES in the Friendly Area Neighborhood of Eugene, Oregon and compares each conversion scenario using an informed weighting system. The result is a method, with potential for use by researchers and public officials, to quantify the delivery of ES, identify stakeholders’ ES priorities, and assess the benefits associated with green infrastructure development. / 2020-01-11

Environmental management

Green infrastructure

Public green space

Urban ecosystem services

Estimating organic carbon on avalanche paths in Glacier National Park, Montana

Williams, Thomas James

01 May 2014

Avalanche paths are unique ecosystems that represent a significant portion of the landscape in the northern Rocky Mountains. Frequent avalanche disturbance results in vegetative cover that is unlike the adjacent coniferous forest. These high relief environments have the potential to remove carbon from the atmosphere at rates differing from those of the surrounding forest, and to regulate matter and/or energy fluxes to downslope ecosystems. This thesis attempts to estimate organic carbon on south-facing avalanche paths in the southern portion of Glacier National Park, Montana. I am specifically interested in total organic carbon density, compartmental carbon density, and change in organic carbon over time as a function of shrub and tree diameter. Using an integrated sampling method, estimates of total organic carbon on avalanche paths appear to be different than those of the adjacent forest and similar to those of other shrub formation types in the area. However, the potentially moveable litter compartment is consistently larger. Organic carbon from shrub and trees growing on paths appears to be increasing at a continuous rate leading up to disturbance, while a typical individual's rate of increase appears to be slowing. The organic material temporarily stored on avalanche paths could serve as an important outside carbon source for near and distant aquatic ecosystems.

avalanche paths

biomass

conduit

keystone ecosystem

organic carbon

Geography

Three Essays in Economics of Prey-Predator Relation

Go, Dong-Hun

01 May 2018

This dissertation explores how natural ecosystem can be integrated with economic system through two case studies of multiple species interactions, or predator-prey relations. By the inclusion of biological, ecological and economic aspects, the integrated approaches aim at more clearly understanding of how regional ecosystem and economy interact with each other, given threats of resource extinction and environmental shock. I also explain strategies and policy regimes that can be considered to achieve efficient and sustainable ecosystem management in those circumstances. The first case study focuses on a predator-prey relation in the Pacific Ocean between the United States and Canada, where endangered/threatened predators feed primarily on commercially valuable species as prey. Accounting for the importance of those predators as critical natural resources for whale watching industry, this case study synthesizes the species biological and the regional economic systems, and analyzes possible management strategies for both ecosystem conservation and sustainable economic growth. A long-term drought and fragmented management has been one of the critical issues in the Great Salt Lake (GSL) ecosystem that is linked with its regional economy in Utah. For this issue, the second case study builds an integrated model for describing how the lakes main natural resources, such as water, brine shrimp, and migratory birds, are related to primary industries in the region including agriculture, mining, fishery, and recreation. With the model framework, the study presents how the prolonged drought affects both the GSL ecosystem and its rigional economy, and suggests economic management strategies for the lakes ecosystem recovery in the presence of drought.

Integrated Modeling Approach

Ecosystem Management

General Equilibrium

Economics

The Ecosystem Role of Fishes in Lotic Environments

Wheeler, Christopher C.

01 May 2014

It is important for humans to understand how ecosystems work because we depend on them for a variety of products and services. For example, rivers and streams provide fisheries, improved water quality, and recreational opportunities to many individuals. In rivers, interactions among fishes, other stream plants and animals, and the physical river environment can influence continued provision of these valuable services. However, the role played by many freshwater fishes in the provision of these services remains unknown. Additionally, it is important to identify different factors that affect the outcome of interactions involving riverine fishes. To address these issues, I evaluated how fishes influence different properties of rivers and streams, using a combined approach that summarized previous studies of fish effects on trophic structure and organic matter processing and incorporated field work in natural systems. Overall, my work demonstrated that fishes can play important roles in rivers and streams. In particular, fish spawning migrations from lakes to streams can introduce nutrients to streams. Compared with other nutrient sources for streams, nutrients delivered by fish migrations can be substantial, and they may be used by other plants and animals in the stream to increase productivity. Beyond nutrient introduction, the physical disturbance of river sediments caused by the spawning activity of large migratory fishes can influence the availability of food resources for other stream animals. Additionally, my summary of previous fish studies indicated the consistent influence of fishes on nutrient dynamics and other stream organisms. While the role of riverine fishes varies, natural resource managers and researchers should focus on understanding how these widespread organisms influence valuable ecosystem services derived from freshwater resources.

Ecosystem Role

role of fishes

lotic environments

Ecology and Evolutionary Biology

Integrating Remote Sensing and Ecosystem Models for Terrestrial Vegetation Analysis: Phenology, Biomass, and Stand Age

Zhang, Gong

01 May 2012

Terrestrial vegetation plays an important role in global carbon cycling and climate change by assimilating carbon into biomass during the growing season and releasing it due to natural or anthropogenic disturbances. Remote sensing and ecosystem models can help us extend our studies of vegetation phenology, aboveground biomass, and disturbances from field sites to regional or global scales. Nonetheless, remote sensing-derived variables may differ in fundamental and important ways from ground measurements. With the growth of remote sensing as a key tool in geoscience research, comparisons to ground data and intercomparisons among satellite products are needed. Here I conduct three separate but related analyses and show promising comparisons of key ecosystem states and processes derived from remote sensing and theoretical modeling to those observed on the ground. First, I show that the Moderate Resolution Imaging Spectroradiometer (MODIS) greenup product is significantly correlated with the earliest ground phenology event for North America. Spring greenup indices from different satellites demonstrate similar variability along latitudes, but the number of ground phenology observations in summer, fall, and winter is too limited to interpret the remote sensing-derived phenology products. Second, I estimate aboveground biomass (AGB) for California and show that it agrees with inventory-based regional biomass assessments. In this approach, I present a new remote sensing-based approach for mapping live forest AGB based on a simple parametric model that combines high-resolution estimates of Leaf Area Index derived from Landsat and canopy maximum height from the space-borne Geoscience Laser Altimeter System (GLAS) sensor. Third, I built a theoretical model to estimate stand age in primary forests by coupling a carbon accumulation function to the probability density of disturbance occurrences, and then ran the model with satellite-derived AGB and net primary production. The validated remote sensing data, integrated with ecosystem models, are particularly useful for large-region vegetation research in areas with sparse field measurements, and will help us to explore the long-term vegetation dynamics.

remote sensing

ecosystem

models

vegetation

phenology

biomass

Environmental Sciences

Patch-Scale Effects of an Invasive Ecosystem Engineer on the Structure and Function of a Eutrophic Stream

Hochhalter, Samuel J

01 May 2009

Recent theoretical and technological advances in ecosystem science have dramatically expanded the ways in which scientists can pursue and explore ecological questions. For my thesis research, I integrated the recent theoretical concept of organisms as ecosystem engineers with the relatively recent development of stable isotope tracer tests to ask the question: how does the invasive common carp affect stream ecosystem structure and function? To investigate the structuring role of carp, I measured autotroph seasonal distribution and abundance and macroinvertebrate seasonal abundance and diversity within two stream reaches in Spring Creek, Utah, USA; one with low carp biomass (LCB) and one with high carp biomass (HCB). I installed a series of carp exclosures in the HCB reach to examine the response of the stream to carp exclusion. To explore the effects of carp on stream nitrogen dynamics, I performed a three week, continuous injection of 15N as ammonium chloride. The macrophyte and macroinvertebrate community was severely depauperate in the HCB reach compared to the LCB reach. The observed rapid colonization of a relatively abundant and diverse macrophyte and macroinvertebrate community at the carp exclusion sites in the HCB reach not only indicates that carp engineering reduces the abundance and diversity of these communities, but also highlights the importance of the spatial distribution of engineered and non-engineered patches in dictating the temporal scale of re-colonization. Carp engineering had a simplifying effect on stream N dynamics that ultimately limited the uptake and retention capacity of the HCB reach. For example, macrophytes played a dominant role in the N dynamics of the LCB reach by directly assimilating NH4, retaining N rich FBOM, and by providing habitat necessary to support an abundant and relatively diverse macroinvertebrate community that facilitated greater trophic transfer of nitrogen. Conversely, carp reduction of macrophytes in the HCB reach resulted in an overall reduction in areal uptake rates of NH4, reduced trophic transfer of N, and significantly reduced N retention. These results clearly indicate that carp engineering reduces macrophyte and macroinvertebrate abundance and diversity in streams and that N dynamics are simplified in carp engineered patches.

biodiversity

carp

ecosystem engineer

nitrogen

water quality

Biology

Monitoring ecosystem health of Fynbos remnant vegetation in the City of Cape Town using remote sensing / Erfassung der Ökosystemgesundheit von Fynbos-Vegetation im Großraum Kapstadt mit Hilfe der Fernerkundung

Knauer, Kim

January 2011

Increasing urbanisation is one of the biggest pressures to vegetation in the City of Cape Town. The growth of the city dramatically reduced the area under indigenous Fynbos vegetation, which remains in isolated fragments. These are subject to a number of threats including atmospheric deposition, atypical fire cycles and invasion by exotic plant and animal species. Especially the Port Jackson willow (Acacia saligna) extensively suppresses the indigenous Fynbos vegetation with its rapid growth. The main objective of this study was to investigate indicators for a quick and early prediction of the health of the remaining Fynbos fragments in the City of Cape Town with help of remote sensing. First, the productivity of the vegetation in response to rainfall was determined. For this purpose, the Enhanced Vegetation Index (EVI), derived from Terra MODIS data with a spatial resolution of 250m, and precipitation data of 19 rainfall stations for the period from 2000 till 2008 were used. Within the scope of a flexible regression between the EVI data and the precipitation data, different lags of the vegetation response to rainfall were analysed. Furthermore, residual trends (RESTREND) were calculated, which result from the difference between observed EVI and the one predicted by precipitation. Negative trends may suggest a degradation of the habitats. In addition, the so-called Rain-use Efficiency (RUE) was tested in this context. It is defined as the ratio between net primary production (NPP) – represented by the annual sum of EVI – and the annual rainfall sum. These indicators were analysed for their suitability to determine the health of the indigenous Fynbos vegetation. Furthermore, the degree of dispersal of invasive species especially the Acacia saligna was investigated. With the specific characteristics of the tested indicators and the spectral signature of Acacia saligna, i.e. its unique reflectance over the course of the year, the dispersal was estimated. Since the growth of invasive species dramatically reduces the biodiversity of the fragments, their presence is an important factor for the condition of ecosystem health. This work focused on 11 test sites with an average size of 200ha, distributed over the whole area of the City of Cape Town. Five of these fragments are under conservation and the others shall be protected in the near future, too, which makes them of special interest. In January 2010, fieldwork was undertaken in order to investigate the state and composition of the local vegetation. The results show promising indicators for the assessment of ecosystem health. The coefficients of determination of the EVI-rainfall regression for Fynbos are minor, because the reaction of this vegetation type to rainfall is considerably lower than the one of the invasive species. Thus, a good distinction between indigenous and alien vegetation is possible on the basis of this regression. On the other hand, the RESTREND method, for which the regression forms the basis, is only of limited use, since the significance of these trends is not given for Fynbos vegetation. Furthermore, the RUE has considerable potential for the assessment of ecosystem health in the study area. The Port Jackson willow has an explicitly higher EVI than the Fynbos vegetation and thus its RUE is more efficient for a similar amount of rainfall. However, it has to be used with caution, because local and temporal variability cannot be extinguished in the study area over the rather short MODIS time series. These results display that the interpretation of the indicators has to be conducted differently from the literature, because the element of invasive species was not considered in most of the previous papers. An increase in productivity is not necessarily equivalent with an improvement in health of the fragment, but can indicate a dispersal of Acacia saligna. This shows the general problem of the term ‘degradation’ which in most publications so far is only measured by productivity and other factors like invasive species are disregarded. On the basis of the EVI-rainfall regression and statistical measures of the EVI, the distribution of invasive species could be delineated. Generally, a strong invasion of the Port Jackson willow was discovered on the test sites. The results display that a reasoned and sustainable management of the fragments is essential in order to prevent the suppression of the indigenous Fynbos vegetation by Acacia saligna. For this purpose, remote sensing can give an indication which areas changed so that specific field surveys can be undertaken and subsequent management measures can be determined. / Zunehmende Urbanisierung stellt eine der größten Bedrohungen für die Vegetation im Großraum Kapstadt dar. Durch das schnelle Wachstum der Stadt bleibt immer weniger der ursprünglichen Vegetation in isolierten Fragmenten zurück. Diese sind in ihrer Funktion als Lebensraum für Flora und Fauna unter Anderem durch Luftverschmutzung, untypische Feuerzyklen und das Eindringen fremder Arten gefährdet. Besonders die Weidenblatt-Akazie (Acacia Saligna) verdrängt die einheimische Fynbos-Vegetation großflächig durch ihr schnelles Wachstum. Hauptziel dieser Arbeit war es, mit Hilfe der Fernerkundung Indikatoren zu finden, um eine schnelle und frühzeitige Aussage über die Gesundheit der verbliebenen natürlichen Vegetationsfragmente im Großraum Kapstadt zu ermöglichen. Zunächst wurde die Produktivität der Vegetation und deren Reaktion auf Niederschlag analysiert. Zu diesem Zweck wurden der Enhanced Vegetation Index (EVI) aus Terra-MODIS-Daten mit einer räumlichen Auflösung von 250m und Niederschlagsdaten von 19 Wetterstationen aus dem Zeitraum 2000 bis 2008 verwendet. Im Rahmen einer flexiblen Regression zwischen EVI und Niederschlagsdaten wurden verschiedene Verzögerungen der Reaktion der Vegetation auf den Niederschlag getestet. Des Weiteren wurden residuale Trends (RESTREND) berechnet, die sich aus der Differenz zwischen beobachtetem EVI und dem aus dem Niederschlag vorhergesagten EVI ergeben. Zusätzlich wurde die sogenannte Rain-use Efficiency (RUE) getestet. Diese ist definiert durch das Verhältnis zwischen Nettoprimärproduktion, repräsentiert durch die Jahressumme des EVI, und der Jahressumme des Niederschlags. Die angewandten Indikatoren wurden darauf untersucht, ob sie eine Aussage über die Gesundheit der einheimischen Fynbos-Vegetation ermöglichen. Des Weiteren wurde der Verbreitungsgrad invasiver Arten, besonders der der Weidenblatt-Akazie bestimmt. Auf Basis der spezifischen Charakteristika der getesteten Indikatoren und der spektralen Signatur von Acacia saligna, also ihrer besonderen Reflexion über den Jahresverlauf, wurde die Verbreitung ermittelt. Da das ungehinderte Wachstum invasiver Arten die Biodiversität der Fragmente stark verringert, ist ihre Anwesenheit ein wichtiger Faktor für die Gesundheit von Ökosystemen. Diese Arbeit konzentrierte sich auf 11 Testflächen mit einer durchschnittlichen Größe von 200ha, die über die gesamte Fläche des Großraums Kapstadt verteilt sind. Fünf dieser Fragmente stehen bereits unter Schutz, während die anderen in absehbarer Zeit folgen sollen; dies macht sie von besonderem Interesse. Im Januar 2010 wurden Geländearbeiten durchgeführt um den Zustand und die Zusammensetzung der Vegetation vor Ort festzustellen. Die Ergebnisse weisen aussichtsreiche Indikatoren zur Abschätzung der Ökosystemgesundheit auf. Die Werte des Bestimmtheitsmaßes der EVI-Niederschlags-Regression sind niedrig für Fynbos, da die Reaktion dieses Vegetationstyps auf Niederschlag wesentlich geringer ist als die der invasiven Arten. Daher ist auf Basis dieser Regression eine gute Unterscheidung zwischen einheimischer und invasiver Vegetation möglich. Auf der anderen Seite ist die RESTREND-Methode, für die diese Regression die Grundlage bildet, nur begrenzt von Nutzen, da die Signifikanzen dieser Trends für Fynbos-Vegetation nicht gegeben sind. Des Weiteren weist die RUE Potential für die Abschätzung von Ökosystemgesundheit im Testgebiet auf. Die Weidenblatt-Akazie hat einen wesentlichen höheren EVI als die Fynbos-Vegetation und daher ist deren RUE bei vergleichbarer Niederschlagsmenge effizienter. Dennoch muss diese mit Vorsicht angewandt werden, da die hohe lokale und temporale Variabilität der RUE im Testgebiet über die relativ kurze MODIS-Zeitserie nicht eliminiert werden kann. Die Ergebnisse verdeutlichen zudem, dass die Interpretation der Indikatoren anders als in der Literatur durchgeführt werden muss, da das Element der invasiven Vegetation in den meisten der vorangegangenen Arbeiten nicht berücksichtigt wurde. Ein Anstieg der Produktivität ist hier nicht gleichzusetzen mit einer Verbesserung der Gesundheit eines Fragments, sondern deutet viel mehr auf eine Verbreitung der Weidenblatt-Akazie hin. Dies verdeutlicht das generelle Problem des Begriffs ‚Degradation‘, welche in den meisten Veröffentlichungen nur über die Produktivität der Vegetation bestimmt wird während andere Faktoren wie zum Beispiel invasive Arten unberücksichtigt bleiben. Auf Basis der EVI-Niederschlags-Regression und der statistischen Messgrößen des EVI konnte die Verbreitung der invasiven Arten abgegrenzt werden. Generell wurde ein starker Befall der Testflächen durch die Weidenblatt-Akazie festgestellt. Die Ergebnisse machen deutlich, dass ein durchdachtes und nachhaltiges Management der Fragmente notwendig ist um die Verdrängung der einheimischen Fynbos-Vegetation durch Acacia saligna zu verhindern. Die Fernerkundung kann zu diesem Zweck Hinweise liefern, welche Flächen sich verändert haben um anschließend gezielte Begehungen vorzunehmen und Maßnahmen einzuleiten.

remote sensing

Fynbos

ecosystem health

degradation

greening

ddc:550

Inter- and intraspecific variation in Pisolithus from central and eastern mainland Australia

Anderson, Ian C., University of Western Sydney, Nepean, Faculty of Science, Engineering and Technology, School of Science

January 2000

Pisolithus is an important ectomycorrhizal genus world-wide, however to date we remain largely ignorant of the genetic and functional variation that exists within isolates of this genus. Fifty-three isolates of Pisolithus were obtained from various locations in central and eastern Australia and genetic variation within the isolates was assessed using ITS-RFLP and ITS sequencing analyses. RFLP analysis initially grouped the isolates into eight RFLP types. Neighbour-joining analysis of ITS sequences with Pisolithus ITS sequences available in databases clustered the majority of isolates into four groups within two major clades, each comprising isolates of similar basidiospre characteristics. Most Australian isolates correspond with recent provisional descriptions of P. albus or P. marmoratus. One isolate (LJ30) had low sequence identity (61.6-78.0%) to the other isolates and probably represents a separate undescribed Australian species. Significant intraspecific variation was observed in ITS-RFLP profiles for the putative P. albus isolates, suggesting that the sole use of RFLP analysis in diversity assessment may over-estimate Pisolithus species richness. Investigations were also initiated to identify if a relationship exists between genetic and physiological diversity in Australian Pisolithus. It is, however, clear that extensive physiological variation exists in Australian Pisolithus isolates. The size and distribution of genets of Australian Pisolithus species I and II ( putative P. albus and P. marmoratus) was also assessed using microsatellite-primed PCR to gain a better understanding of the likely distribution of underground mycelial networks and possible reproduction strategies in native soils. The data demonstrate that both species have the ability to be long-lived and extend for significant distances in native soils in undisturbed conditions. The field site for Pisolithus species I, however, also contained of a large number of small individuals suggesting that this species may employ a life-history strategy combining r-, C and S characteristics depending on local soil conditions / Doctor of Philosophy (PhD)

pisolithus

ectomycorrhizal fungi

native soils

ecosystem

ITS-RFLP