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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
21

Índice quanti-qualitativo de avaliação da vegetação em setores urbanos

Dotto, Bruna Righi 06 July 2018 (has links)
Submitted by JOSIANE SANTOS DE OLIVEIRA (josianeso) on 2018-10-03T13:04:09Z No. of bitstreams: 1 Bruna Righi Dotto_.pdf: 7601531 bytes, checksum: 33b28afe4a9c86613798af79606684fa (MD5) / Made available in DSpace on 2018-10-03T13:04:09Z (GMT). No. of bitstreams: 1 Bruna Righi Dotto_.pdf: 7601531 bytes, checksum: 33b28afe4a9c86613798af79606684fa (MD5) Previous issue date: 2018-07-06 / Nenhuma / A vegetação é um equipamento de importância no meio urbano, pois é capaz de amenizar as consequências da urbanização e propiciar qualidade ambiental à população. No entanto, a escassez de informações quanto à qualidade de sua implantação impede o seu correto planejamento, o que restringe seu desempenho benéfico e pode gerar disfunções em relação à infraestrutura urbana adjacente. Assim, a obtenção do diagnóstico adequado da situação da vegetação no ambiente urbano é de importância aos planejadores porque contribui no delineamento de intervenções que podem adequá-la ao contexto urbano existente. Diversos índices e indicadores foram desenvolvidos no intuito de realizar o levantamento de informações relevantes ao planejamento urbano quanto à vegetação existente, sendo que a complexidade dos indicadores e limitações em sua aplicação dificultam que sejam utilizados de forma extensiva pelos planejadores e podem fornecer dados rasos e imprecisos. Neste contexto, o presente estudo visa propor o Índice Quanti-Qualitativo de Avaliação da Vegetação em Setores Urbanos, um índice que permite a avaliação de diversos critérios de importância para que a vegetação implantada impacte beneficamente na qualidade ambiental de seu entorno, auxiliando na definição de planos de ação para a melhoria geral da vegetação da área em estudo, enquanto busca contrapor as adversidades apresentadas por outros índices similares. O Índice proposto foi aplicado em um estudo de caso realizado tendo como objeto a Vila do IAPI, em Porto Alegre, onde considerou-se que atingiu os seus objetivos propostos e traduziu corretamente o contexto da vegetação presente na área em estudo, auxiliando a delimitar possíveis planos de melhorias para o local. / Vegetation is an equipment of importance in the urban environment, since it is capable of mitigating the consequences of urbanization and providing environmental quality to the population. However, the scarcity of information about the quality of its implementation prevents its correct planning, which restricts its beneficial performance and can generate dysfunctions concerning the adjacent urban infrastructure. Therefore, obtaining an adequate diagnosis of the vegetation situation in the urban environment is important to the planners because it contributes to the design of interventions that can adapt it to the existing urban context. Several indexes and indicators have been developed in order to survey relevant informations to urban planning regarding existing vegetation, but the complexity of the indicators and limitations in their application make it difficult for them to be used extensively by planners and can provide shallow and imprecise data. In this context, the present study aims to propose the Quantitative and Qualitative Index of Evaluation of Vegetation in Urban Sectors, an index that allows the evaluation of several criteria of importance for the implanted vegetation to beneficially impact on the environmental quality of its surroundings, assisting in the definition of action plans for the general improvement of the vegetation of the study area, while seeking to oppose the adversities presented by other similar indexes. The proposed index was applied in a case study carried out with the object of the IAPI Village, in Porto Alegre, where it was considered that it reached its proposed objectives and correctly translated the context of the vegetation present in the study area, assiting in the delimitation of possible improvement plans for the site.
22

Can urban greenways provide high quality avian habitat?

Hull, Jamie Rebekah, January 2003 (has links)
Thesis (M.S.)--North Carolina State University, 2003. / Title from PDF title page (viewed on Mar. 26, 2005). Includes vita. Includes bibliographical references.
23

Áreas de proteção permanente-APPs em Maceió : do ideário conservacionista aos usos sócio-ambientais das zonas de interesse ambiental e paisagístico. / Legally permanent protection areas (PPPs) and zonas of environment and lands care interest (ziaps)-Maceió/AL

Lima, Bianor Monteiro 25 November 2009 (has links)
The ecological components as topography, hydrograph and the vegetation that still exist in valleys and hillsides of Maceio city brings to the landscape singularity. Although the occupation form and intensity of the spaces result in the vegetation degradation, particularly in the areas next to the water bodies, in the hillsides and valleys next to the most occupied areas, these vegetation even named legally Permanent Protection Areas (APPs) and Zones of Environment and Landscape Interest (ZIAPs), has been focus of strong pressure face to the expansion of urban occupation. Based on theoretical-methodological approach from Magalhaes (2001), this work analyses the urban landscape of Maceio, from its ecological components, urban occupation as a cultural component and from the group of urban and environment laws. It achieves that the environment and landscape interest are real, although needs to be considered in the concrete reality of the city space. For this, identifies in both, global and local climate, an opportunity to advance in the environmental protection aspect, going beyond the laws to the definition of social-environmental uses to the areas of Permanent Protection. It is proposed of that these APPs along with the ZIAPs already defined by the Municipal Master Plan, may structure a Green Free Vegetated Spaces System, which would receives the denomination of Maceio Green Plan. It is a contribution to the territory occupation plan of the city, in a way to improve the urbanity and quality of its landscape. / As componentes ecológicas como o relevo, a hidrografia e a vegetação que ainda povoam as grotas e encostas da cidade de Maceió conferem singularidade a sua paisagem. Embora a forma e a intensidade de ocupação dos espaços da cidade resultem em degradação dessa vegetação, sobretudo nas áreas próximas dos corpos hídricos e nas encostas e grotas adjacentes às áreas mais ocupadas; essa cobertura vegetal mesmo declarada legalmente Áreas de Proteção Permanente (APPs) e Zonas de Interesse Ambiental e Paisagístico (ZIAPs), têm sido alvo de forte pressão ante a expansão da ocupação urbana. A partir de apoio teóricometodológico baseado em A Arquitetura Paisagística-morfologia e complexidade em Magalhães (2001), essa Dissertação analisa a paisagem urbana de Maceió a partir de suas componentes ecológicas, da ocupação urbana como componente cultural e do conjunto das legislações urbanística e ambiental, constatando que o interesse ambiental e paisagístico é uma realidade, embora careça de expressão na realidade concreta do espaço da cidade. Para tanto identifica no atual clima, mundial e local, de defesa do meio ambiente uma oportunidade para avançar, indo além do texto das leis, para a definição de usos sócio-ambientais para as áreas de Proteção Permanente. Defende a hipótese de que essas APPs conjuntamente com as Zonas de Interesse Ambiental e Paisagístico já definidas pelo Plano Diretor Municipal, passem a estruturar um Sistema de Espaços Livres Vegetados, embrião de um possível Plano Verde do município de Maceió. Trata-se de uma contribuição ao planejamento da ocupação do território da cidade de modo a implementar a urbanidade e a qualidade de sua paisagem.
24

Modélisation de la végétation urbaine comme régulateur thermique / Urban vegetation modeling as a thermal regulator

Redon, Emilie 20 June 2017 (has links)
La végétation influence le climat urbain de l'échelle de la rue à l'échelle de la ville. Les arbres de rue, en particulier, constituent une technique alternative à l'atténuation de l'îlot de chaleur urbain et à l'amélioration du confort thermique. Ils modifient les bilans radiatif et énergétique en interceptant et absorbant une partie du rayonnement solaire incident, créent de l'ombre, augmentent l'humidité relative de l'air par évapotranspiration et modifient également les écoulements d'air dans le canyon urbain. Le modèle TEB est un des rares modèles de climat urbain prenant en compte la végétation. Il intègre des paramétrisations dédiées à la végétation basse dans les canyons urbains et aux toitures végétalisées, et peut représenter les interactions de petite échelle entre les surfaces minéralisées, la végétation et l'atmosphère. Dans le cadre de cette thèse, une paramétrisation a été implémentée dans TEB pour modéliser les aspects radiatifs, énergétiques et aérauliques liés à la présence d'arbres de rue dans l'espace urbain. Une canopée arborée explicite a été intégrée dans le canyon urbain au-dessus de la chaussée et des jardins. Le modèle ISBA est utilisé pour représenter les strates haute et basse de la végétation. Les calculs radiatifs du modèle TEB ont été modifiés afin de prendre en compte les effets d'ombrage et d'atténuation du rayonnement solaire et IR liés à la présence de cette canopée, et les interactions IR entre l'ensemble des éléments urbains du canyon. Une évaluation du bilan radiatif a été réalisée grâce à une comparaison avec le modèle architectural d'ensoleillement à haute résolution SOLENE, sur la base de simulations de canyons urbains idéalisés et pour différentes configurations d'arbres de rue. Les flux d'énergie calculés par ISBA selon l'approche \textit{big leaf} ont ensuite été désagrégés entre les contributions de la végétation haute et basse. Les flux des arbres ont été redistribués sur la verticale de façon à modifier le microclimat à hauteur réaliste vis-à-vis de la position de la canopée arborée. Un effet de traînée lié à la présence de la canopée arborée a été intégré dans les équations de quantité de mouvement et d'énergie cinétique turbulente résolues par la paramétrisation de couche limite de surface de TEB pour le volume d'air au sein du canyon. Une évaluation en cas réel de cette nouvelle version du modèle a été conduite sur un site expérimental, à savoir une cour semi-fermée aménagée avec des arbres et où ont été collectées différentes variables microclimatiques. Les résultats montrent des améliorations considérables quant à la modélisation des températures de surface des murs et du sol, de la température de l'air sous la canopée arborée, et de la vitesse du vent. Ces implémentations visent à simuler de façon plus réaliste différentes stratégies d'adaptation par la végétalisation et d'évaluer leurs performances sur l'atténuation de l'îlot de chaleur urbain, le confort thermique, et la consommation d'énergie des bâtiments. / Vegetation influences the urban climate, from road to city scale. Street trees implementation is an alternative technic to reduce the urban heat island and to improve the thermal comfort. They modify the radiative and energetic balances by intercepting and absorbing a part of the solar radiation, provide shade, increase the humidity with evapotranspiration, and alter the air flow in the urban canyons. The TEB model is one the rare urban climate models taking into account vegetation. It integrates parameterizations dedicated to low vegetation and green roofs. It can represent the small-scale interactions between mineral surfaces, vegetation and the atmosphere. During this PhD thesis, a parameterization has been developed to model the radiative, energetic and dynamical effects of street and garden trees in urban spaces. An explicit tree canopy has been integrated into the urban canyon, above gardens but also streets. The ISBA vegetation scheme has been used, and included in TEB, to represent these vegetated entities (both low and high strata). The radiative computations of the TEB model have been improved in order to represent the shading and attenuation of radiation due to trees, as well as all the infra-red interactions between the urban elements. An evaluation of the radiative budget has been done thanks to a comparison with the high- resolution architectural model SOLENE, using numerous different urban canyons with several layouts of tree canopies. Then, the energy fluxes computed by ISBA have been dis- aggregated between contributions from high and low vegetation. Fluxes allocated to the trees have been redistributed on the vertical in order to alter the microclimate at realistic height, i.e. respecting the position of the tree crown. A specific drag force of trees on the airflow is simulated. An evaluation has been done on a real experimental site in a canyon-like courtyard with trees where several microclimatic data were collected. The results show an impressive improvement of the surface temperatures of walls and ground, air temperature and wind speed. In the future, these implementations will allow to simulate more realistically several adaptation strategies using greening at city scale, and to evaluate their efficiency in terms of urban heat island mitigation, improvement of human comfort and building energy consumption.
25

Levantamento florístico e colonização micorrízica em dois remanescentes de cerrado típico e em plantas ruderais no município de Três Lagoas-MS

Neto, Maria José [UNESP] 30 August 2010 (has links) (PDF)
Made available in DSpace on 2014-06-11T19:35:17Z (GMT). No. of bitstreams: 0 Previous issue date: 2010-08-30Bitstream added on 2014-06-13T19:05:40Z : No. of bitstreams: 1 neto_mj_dr_ilha.pdf: 993776 bytes, checksum: 2b507122c2d5ec15ebaf77777529b841 (MD5) / Universidade Estadual Paulista (UNESP) / Este trabalho foi realizado em dois remanescentes de Cerrado sentido restrito conhecidos por Reserva do Exército e Parque Municipal Capivaras; e numa área urbanizada denominada Vila Piloto, localizados no Município de Três Lagoas - MS. Nesta última foi realizado o levantamento de plantas ruderais. Nas três áreas fez-se o levantamento da diversidade florística e coletou-se amostras de plantas em fase jovem para verificação de colonização micorrízica arbuscular. Amostras compostas de solo também foram coletadas para contagem de esporos e análise das características químicas do solo. A área de Reserva do Exército mostrou um total de 397 espécies, distribuídas em 241 gêneros e 70 famílias. Das 44 espécies submetidas à análise de colonização micorrízica, 17 tiveram muito alta, 18 alta, oito baixa e uma ausente. O Parque Capivaras exibiu 449 espécies, distribuídas em 277 gêneros e 96 famílias. Das 44 espécies submetidas à análise de colonização micorrízica, 22 tiveram muito alta, 15 alta, uma baixa e seis ausente. Para a Vila Piloto foram identificadas 344 espécies distribuídas em 201 gêneros e 61 famílias, três espécimes determinados apenas em nível de gênero, das 344 espécies 281 são nativas do Brasil e 76 são típicas de cerrado ou cerradão. Das 50 espécies de plantas ruderais escolhidas para verificação da colonização micorrízica, 27 exibiram colonização muito alta, três alta, duas média, onze baixa e sete espécies não apresentaram colonização micorrízica. Os solos das áreas estudadas se apresentam com teores médios para alumínio e matéria orgânica. A média de esporos por 100g de solos foi de 53 para o Exército e 48 para o Parque Capivaras, permitindo sugerir que as áreas estão em equilíbrio. Para a Vila Piloto os resultados da amostragem do solo para os dois pontos coletados revelaram uma fertilidade que pode ser... / This research was accomplished in two restricted sense cerrado remnants, one of them known as the Military Reserve and the other the Municipal Park of Capivaras. The other area was in an urbanized region named Vila Piloto, located in Três Lagoas - MS County, where a floristic survey of ruderal plants was made. In all three areas, a survey of floristic biodiversity was done and samples of young plants were collected to verify arbuscular mychorhizal colonization. Soil samples were also taken for counting spores and for analyzing its chemical characteristics. The Military Reserve displayed a total of 397 species, distributed in 241 genera and 70 families. Of the 44 species submitted to mychorrhizal colonization analyses, 17 were very high, 18 high, eight low and one absent. The Capivaras Park displayed 449 species, distributed in 277 genera and 96 families. Of the 44 species submitted to the mychorhizal colonization analysis, 22 had very high, 15 high, one had low and six had no colonization. For Vila Piloto, 344 species were identified and distributed in 201 genera and 61 families, and three specimens determined only in the genus level. Of the 344 species, 281 are natives to Brazil and 76 are typical of Cerrado or Cerradão. Fifty species from ruderal plants were chosen for verification of the mychorhizal colonization, of which 27 species displayed very high colonization, three high, two medium, eleven low and seven species did not present mychorhizal colonization. The soil of the studied area has medium content for aluminum and organic material. The average number of spores per 100g of soil was 53 for the Reserve and 48 for the Park, suggesting that the areas were in equilibrium. The results from Vila Piloto soil samples collected from two points revealed a fertility that can be considered higher than the typical Cerrado and an average number of FMA spores of 152 per 100g of dry soil ... (Complete abstract click electronic access below)
26

Essays in Geospatial Modeling of Urban Green Infrastructure

Park, Yujin 13 November 2020 (has links)
No description available.
27

Photorealistic visualisation of urban greening in a low-cost high- density housing settlement.

Donaldson-Selby, Gavin Hugh. January 2005 (has links)
Apartheid housing policies of the pre-1994 South African government, and the low-cost highdensity housing programmes of the post-1994 government, has given rise to numerous urban environmental problems, some of which could be addressed in a cost-effective and sustainable manner through urban greening, while simultaneously promoting biodiversity. Public participation in the planning of urban greening has been identified as being of vital importance, without which urban greening projects run a high, and expensive, risk of failure. Previous studies indicate that the greening priorities of residents in low-cost high-density housing settlements may differ considerably from those of managers and experts tasked with the protection and extension of the natural environment resource base. A system of participatory decision support is therefore required to reconcile the greening requirements of the community, and the ecological benefits of biodiversity. If language, literacy, map literacy and numeracy difficulties are to be avoided, and a sense of place or belonging is to be invoked, such a participatory decision support system should, ideally, be visually based, and capable of generating realistic eye-level depictions of the urban landscape. New computer-based landscape visualisation applications, which can directly utilise GIS, CAD and DEM data to produce detailed photo-realistic viewsheds, were deemed better suited to the task of visualising urban greening than existing GIS based mapping systems, CAD and traditional landscape visualisation methods. This dissertation examines the process of constructing a 3D computer model of the Mount Royal low-cost high-density housing settlement, situated in the eThekwini Municipality, KwaZulu-Natal, South Africa. Visualisations including terrain, natural features, indigenous vegetation, houses and roads were produced and submitted, with a questionnaire, to experts from different disciplines, Mount Royal residents and neighbors. Results from the expert survey indicate moderate support for visualisation in professional decision-making. However, both experts and residents expressed strong support for the accuracy and credibility ofthe visualisations, as well as for their potential in a participatory decision support system. / Thesis (M.Sc.)-University of KwaZulu-Natal, Pietermaritzburg, 2005.
28

Modélisation de la végétation urbaine et stratégies d'adaptation pour l'amélioration du confort climatique et de la demande énergétique en ville / Modelling of urban vegetation and adaptation strategies for improved comfort and energy demand in the city

De Munck, Cécile 08 November 2013 (has links)
Les projections climatiques prévoient une amplification du réchauffement climatique, potentiellement exacerbée en milieu urbain du fait du phénomène d’îlot de chaleur urbain. La recrudescence d’évènements extrêmes comme les canicules peut avoir des conséquences écologiques, sanitaires, et économiques dramatiques à l’échelle des villes qui concentrent la population. Parmi les mesures d’adaptation visant à améliorer le confort climatique et la demande énergétique, la climatisation et le verdissement urbain constituent deux leviers d’action aux effets parfois antagonistes. Ce travail de thèse – mené dans le cadre des trois projets de recherche CLIM2, MUSCADE et VegDUD, propose d’évaluer ces effets par des simulations du climat urbain à l’échelle de l’agglomération parisienne. La modélisation repose en particulier sur le modèle de canopée urbaine TEB qui permet de simuler les échanges de chaleur, d’eau et de quantité de mouvement entre les surfaces urbaines et l’atmosphère, et depuis peu l’énergétique des bâtiments et des indices de confort thermique dans les bâtiments et dans les rues. Afin d’améliorer la prise en compte de la végétation urbaine dans TEB, un modèle de toitures végétalisées extensives a tout d’abord été développé et évalué. Différentes pratiques d’arrosage de la végétation urbaine au sol ou sur les toits ont également été paramétrées. Les scénarios d’adaptation de la ville de Paris par la climatisation, évalués dans le cadre de CLIM2 pour la canicule 2003 par des simulations couplées de TEB avec un modèle atmosphérique, ont mis en évidence que toutes les formes de climatisation qui rejettent de la chaleur dans l’atmosphère (sèche ou humide) génèrent une augmentation de la température des rues au niveau des piétons. Ce réchauffement, proportionnel à la puissance des rejets de chaleur sensible dans l’atmosphère, est en moyenne de 0.5 à 2°C, selon le niveau de déploiement de la climatisation. Différentes stratégies de verdissement ont ensuite été mises en œuvre et évaluées toujours sur Paris, en faisant varier soit la végétation au sol (plusieurs taux et types de végétation testés), soit celle en toiture (avec ou sans arrosage), soit les deux. Ces simulations, réalisées dans la configuration générale du projet MUSCADE, i.e. en mode forcé avec une version de TEB disposant d’un générateur dynamique d’îlot de chaleur urbain, ont montré que l’augmentation de la couverture végétale au sol a un pouvoir rafraîchissant plus efficace que les toitures végétalisées, et ce d’autant plus que le taux de verdissement et que la proportion d’arbres sont importants. Les toitures végétalisées quant à elles constituent le moyen le plus efficace de réduire la consommation d’énergie, non seulement estivale mais aussi à l’échelle annuelle, essentiellement grâce à leur pouvoir isolant. / Climate projections predict an amplification of global warming, potentially exacerbated in urban areas by the urban heat island effect. More frequent extreme events such as heat waves may have severe public health, ecological, and economic consequences as cities concentrate population. Among the measures aiming at improving thermal comfort or energy demand, air conditioning and urban greening are measures that may have antagonistic effects. This PhD work is undertaken within the framework of three research projects, CLIM2, MUSCADE and VegDUD. Its objective is to evaluate the respective effects of air conditioning and urban greening based on urban climate simulations across the Paris area. The modelling relies on the Town Energy Balance (TEB) model, which simulates the exchange of heat, water and momentum between the urban surface and the atmosphere. It has been recently improved to simulate building energetics, as well as indoor and outdoor thermal comfort indices. To improve the description of urban vegetation within TEB, a green roof model has been developed and evaluated. In addition, watering practices have been implemented to model the watering of urban vegetation at ground or roof level. Within CLIM2, the air conditioning scenarios tested for adapting Paris city to the extreme temperatures of the 2003 heatwave have been evaluated based on simulations using TEB coupled with an atmospheric model. Results shows that all forms of conditioning that release waste heat (dry or wet) into the atmosphere generate a temperature increase in the streets. This warming is proportional to the power of the sensible heat releases in the atmosphere and is on average 0.5 to 2_C, depending on the level of deployment of the air conditioning. Then, the greening of Paris city has been evaluated based on simulations carried out with the general configuration of the MUSCADE project, i.e. with climate forcings and a dynamic urban heat island generator. The scenarios tested consisted in an increase in ground-base vegetation or an implementation of green roofs on compatible buildings, or the two combined, with the option of watering green roofs or not in summer. Results show that increasing the ground cover has a stronger cooling effect than implementing green roofs, and even more so when the greening rate and the proportion of trees are important. The green roofs are however the most effective way to reduce energy consumption, not only in summer but also on an annual basis, mainly due to their insulating properties.
29

Forêt urbaine, végétation et développement de l’asthme infantile

Duquesne, Louise 12 1900 (has links)
Contexte : L’influence de la végétation urbaine sur le développement de l’asthme infantile est controversée. Il est avancé que les arbres (canopée urbaine) réduisent la pollution atmosphérique, un facteur de risque de l’asthme mais également, que certains peuvent émettre des pollens et des composés organiques volatils biogéniques, tout-autant des facteurs de risque pour le développement de l’asthme chez l’enfant. Cependant, les risques associés à la canopée urbaine ont été étudiés à l’aide de données rudimentaires souvent, sans considération pour la saison. Objectifs : 1) Caractériser l’association entre la végétation urbaine et le développement de l’asthme en distinguant la végétation totale et de la canopée des feuillus et de conifères, en fonction des saisons de production de pollens et de feuilles des arbres. 2) Évaluer l’influence de la canopée d’arbres sur l’association entre les particules fines (PM2.5) et le développement de l’asthme infantile. Méthodes : Nous avons utilisé les données d’une cohorte de naissance ouverte contenant tous les enfants nés sur l’île de Montréal (Canada) entre 2000 et 2015 et suivis jusqu’à leurs 12 ans, créée à partir de données médico-administratives agrégées. L’exposition à la végétation totale a été estimée à l’aide d’une mesure satellitaire appelée l’indice de végétation par différence normalisée (NDVI) et l’exposition à la canopée urbaine, a été estimée à l’aide de données de télédétection laser aéroporté - LiDAR permettant d’estimer l’aire de la canopée des feuillus et des conifères dans un rayon de 250 m autour de la résidence des participants, tout au long du suivi. En dehors des saisons de pollens et de feuilles des arbres, les variables d’expositions ont été fixées à zéro. Des modèles de risque proportionnels de Cox ont été développés pour estimer le risque associé au NDVI et aux canopées d’arbres lors de la saison de pollens et de feuilles des arbres. La non-linéarité a été modélisée à l’aide de catégories et de splines cubiques pour les expositions. Nous avons ensuite évalué l’effet de la canopée urbaine sur l’association entre les particules fines (PM2.5) et le développement de la maladie. Résultats : Parmi les 352 946 enfants inclus dans la cohorte et suivis pour un total de 1,7 millions de personnes-années, 30 816 nouveaux cas d'asthme ont été identifiés pour un taux moyen de nouveaux cas d’asthme était de 17,79 nouveaux cas par 1 000 personnes-années. Le NDVI moyen annuel s’élevait à 0,365 (Écart-type (ET) : 0,106) dans un rayon de 250 m centré sur la résidence des participants. En saison de pollens, le NDVI moyen se réduisait à 0,089 (ET : 0,106) et à 0,15 (ET : 0,185) en saison de feuilles. En moyenne, les enfants étaient exposés à trois fois plus de canopées de feuillus (moyenne = 12,3 (ET : 17,0) ×103 m2) que de conifères en saison de feuilles (moyenne= 4,5 (ET : 4,3) ×103 m2), et sept fois plus en saison de pollens. Nos analyses ont révélé des associations distinctes en fonction des saisons pour le NDVI et la canopée de feuillus. Trop peu de conifères étaient présents pour tirer des conclusions quant à leur effet. Les analyses à l’aide des splines cubiques pour les expositions ont indiqué la présence de relations non-linéaires. La catégorisation des expositions a indiqué que des niveaux moyens de canopée de feuillus en saisons de feuilles avaient un effet protecteur lorsque comparés aux non-exposés (Rapport de Risque (RR): 0,694 ; Intervalle de confiance (IC95%) : 0,680 – 0,708). À l’inverse, pour les journées de pollens, la canopée de feuillus autour de la résidence était associée à l’augmentation du risque (RR =1,082 (IC95% 1,056 – 1,108)). Pour les catégories de NDVI annuel (non subdivisé par saisons), aucune association n’a été détectée. Pour finir, la canopée d’arbres et le NDVI n’ont influencé que très faiblement l’association entre les PM2.5 régionaux et le développement de l’asthme infantile. Cependant, une légère interaction a été observée entre les feuillus en saison de feuilles et les PM2.5. Des niveaux élevés de feuillus autour de la résidence en période de feuilles diminueraient le risque d’asthme associé à l’exposition aux PM2.5. Discussions : Les résultats suggèrent que l’effet de la végétation varie en fonction des saisons. L’effet capté par le NDVI semble être en grande partie attribuable à la canopée de feuillus. L’influence de la végétation sur l’association entre les PM2.5 et le développement de l’asthme est très faible. / Background: The influence of urban vegetation and tree canopy on the development of childhood asthma is controversial. It is argued that trees reduce air pollution, a risk factor for asthma, but at the same time, some species emit pollens and biogenic volatile organic compounds, all of which are risk factors for the development of asthma in children. Yet, the risks associated with the urban canopy have been studied using rudimentary data, often without consideration for the season. Objectives: 1) To characterize the association between urban vegetation and asthma development by distinguishing between total vegetation and deciduous and evergreen tree canopy, according to the pollen and leaf-on seasons. 2) To assess the influence of tree canopy on the association between fine particulate matter (PM2.5) and the development of childhood asthma. Methods: We used data from an open birth cohort containing all children born on the island of Montreal, Canada, between 2000 and 2015 and followed up until their 13th birthday, created from aggregated medico-administrative data. Exposure to total vegetation was estimated using a satellite measure called the normalized difference vegetation index (NDVI). Exposure to the urban canopy was estimated using LiDAR, an airborne remote laser sensing technology that was used to estimate the area of the deciduous and coniferous canopy within a 250 m buffer centered on participants' residential postal codes, updated throughout the follow-up. Outside of the pollen and tree leaf-on seasons, exposure variables were set to zero. Cox proportional hazard models were developed to estimate the risk associated with NDVI and tree canopies for the pollen and tree leaf-on seasons. Nonlinearity was modeled using categories and restricted cubic splines for exposures variables. We then assessed the effect of the urban canopy on the association between fine particulate matter (PM2.5) and asthma development. Results: Among the 352,946 children included in the cohort and followed for a total of 1.7 million person-years, 30,816 new asthma cases were detected, for an average incidence rate of 17.79 new cases per 1,000 person-years. The mean annual NDVI was 0.365 (Standard Deviation (SD): 0.106) within a 250 m buffer centered on participants' residential postal codes. In the pollen season, the mean NDVI was reduced to 0.089 (SD: 0.106) and to 0.15 (SD: 0.185) for the leaf-on season. On average, children were exposed to three times as much deciduous canopy (mean= 12.3 (SD: 17.0) ×103 m2) as coniferous canopy in leaf-on season (mean= 4.5 (SD: 4.3) ×103 m2), and seven times as much in pollen season. Our analyses revealed distinct associations by season for NDVI and deciduous trees. Too few evergreens were present to draw conclusions about their effect. Cubic spline analyses for exposures indicated the presence of nonlinear relationships. Exposure categorization indicated that average levels of deciduous trees canopy in the leaf-on season had a protective effect when compared to unexposed (Hazard Ratio (HR): 0.694; Confidence Interval (CI95%): 0.680 - 0.708). Conversely, for pollen days, the residential deciduous canopy was associated with increased risk (HR =1.082 (CI95% 1.056 - 1.108)). For annual NDVI categories (not subdivided by season), no association was detected. Finally, tree canopy and NDVI only weakly influenced the association between regional PM2.5 and childhood asthma development. However, a slight interaction was observed between leaf-on-season deciduous canopy and PM2.5. High levels of deciduous trees canopy at residential postal codes during the leaf-on season decrease the risk of asthma associated with PM2.5 exposure. Discussion: Our results suggest that the effect of vegetation varies with season. The effect captured by NDVI appears to be largely due to the deciduous canopy. The influence of vegetation on the association between PM2.5 and asthma development appeared to be marginal.
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Spatial and Temporal Dynamics of  Carbon Sequestration in Stockholm  County's Green areas : A GIS-based Analysis / Kolbindningsdynamiken i Stockholm Läns Grönområden genom Tid : En GIS-baserad Analys

Kareflod, Victoria January 2023 (has links)
The human influence of global climate is an issue currently assessed in various mitigation strategies. Stockholm County has committed to becoming carbon neutral by 2040 and negative by 2045 according to the Paris agreement. The strategy includes cutting of various sectors emissions as well as compensating for remaining emissions with carbon sequestration methods. Accounting for ecosystems ability to sequester carbon at local level in green urban areas is an important in carbon offset efforts. It has emerged from previous research that the sequestration rate may differ depending on vegetation age and thus time passing, which is not assessed on a regional level, which is important for carbon offset efforts to accurately account for the sequestration potential in long-term mitigation strategies. This study therefore aims to fill the knowledge gap of how the temporal aspect affects the current sequestration potential and future predictions, as well as assessing how it can aid in reaching carbon neutrality by 2040. The study are thus aiming to answer the research questions (1) how the carbon sequestration potential of the existing green areas change over time in Stockholm County, (2) if additional measures need to be taken to preserve or increase carbon sequestration to maintain carbon neutrality until 2040 and (3) how the knowledge of sequestration dynamics aid in reaching a carbon neutral city by 2040. A weighing of which Corine Land Cover categories was performed and concluded in the including; discontinuous structures, green urban areas, forests and wetlands, due to their contribution to sequestration potential, estimated change through time, and relevance for Stockholm County. The spatial analysis was made based on calculations with information obtained from processing of obtained data on land cover and species distribution as well as scientific literature on sequestration rates of each vegetation across all life stages, where Net Ecosystem Production was the main measurement used. The estimated results were computed in a Geographic Information System to simulate and visualize the sequestration rates of current and future predictions of 2040 sequestration potential as well as locating areas of interest. The findings show that by including temporal aspects to the assessment of carbon sequestration potential in Stockholm County, the current and future sequestration potential increased from previous research estimations. The total current sequestration potential was 2,8 MtCO2-eq annually and the predictions were estimated to 3,3 MtCO2-eq per year in 2040. As the current emissions in Stockholm County are currently 6 MtCO2-eq per year, the natural sequestration potential provided by the green areas is compensating for 46% of the current emissions. As the estimated future emissions are 0,95 MtCO2-eq annually, the natural sequestration potential more than compensates for the emissions in the county, if the predicted emission reductions are realized. Although further measurements are not seemingly required to achieve carbon neutrality in 2040, the findings further locate areas and species where management practices or protection is beneficial to further add to the sequestration potential of Stockholm County. / Den mänskliga påverkan på det globala klimatet är ett problem som för närvarande bedöms i olika klimatåtgärder. Stockholms län har förbundit sig till ett mål att bli koldioxidneutralt till 2040 och koldioxidnegativt till 2045 enligt Parisavtalets överenskommelser. Strategin innefattar att minska utsläppen från olika sektorer samt att kompensera de återstående utsläppen med olika metoder för koldioxidlagring. Ekosystemens förmåga att binda kol på lokal nivå i gröna stadsområden är en viktig del av ansträngningarna för att kompensera för utsläppen. Det har varit uppenbart från tidigare forskning att potentialen av koldioxidlagring kan skilja sig åt beroende på vegetationens ålder samt passerande tid, även om aktuell forskning inte omfattar frågan på regional nivå, vilket är viktigt för insatser som omfattar koldioxidkompensation så att lagringspotentialen kan redovisas korrekt i de långsiktiga klimatåtgärderna. Denna studie syftar därför till att fylla kunskapsluckan gällande hur den tidsmässiga aspekten påverkar den befintliga lagringspotentialen och framtida prognoser samt hur det kan bidra till att nå koldioxidneutralitet fram till 2040. Studien avser därmed till att svara på forskningsfrågorna (1) hur kolbindningspotentialen för de befintliga grönområdena förändras över tid i Stockholms län, (2) ifall ytterligare åtgärder behöver vidtas för att bevara eller öka koldioxidbindningen för att uppnå eller bibehålla koldioxidneutralitet fram till 2040 och (3) hur kunskapen om koldioxidlagringsdynamiken underlättar för att nå en koldioxidneutral region år 2040. En avvägning av vilka Corina marktäckeskategorier utfördes och resulterade i inkludering av; diskontinuerliga strukturer, gröna stadsområden, skogar och våtmarker, där koldynamiken och omfattningen av lagringspotentialen var relevant för Stockholmsregionen. Den rumsliga analysen gjordes baserad på beräkningar med information erhållen genom bearbetning av införskaffad data om marktäcke och artfördelning samt vetenskaplig litteratur om kolbindningshastighet för varje vegetation över alla livsstadier, där Net Ecosystem Production var det huvudsakliga måttet. De uppskattade resultaten beräknades i ett Geografiskt Informationssystem för att simulera och visualisera lagringshastigheten för nuvarande och framtida förutsägelser om sekvestreringspotentialen år 2040 samt att lokalisera intressanta. Resultaten visar att genom att inkludera tidsmässiga aspekter i bedömningen av kolbindningspotentialen i Stockholms län ökade den nuvarande och framtida bindningspotentialen från tidigare forsknings uppskattningar. Den totala nuvarande lagringspotentialen var 2,8 MtCO2-ekv årligen och de framtida prognoserna uppskattades till 3,3 MtCO2-ekv årligen år 2040. Eftersom de nuvarande utsläppen i Stockholms län för närvarande är 6 MtCO2-ekv årligen, kunde man se att den naturliga lagringspotentialen som grönområdena avsåg, kompenserar för 46 % av de nuvarande utsläppen. Eftersom de beräknade framtida utsläppen är 0,95 MtCO2-ekv per år, mer än kompenserar de gröna områdena för de utsläpp som sker i länet, om den förutsedda reduceringen av utsläppen sker. Även om ytterligare mätningar inte tycks behövas för att uppnå koldioxidneutralitet till 2040, lokaliseras ytterligare områden samt arter i resultatet där förvaltning eller skydd är fördelaktiga för att ytterligare förbättra lagringspotentialen i Stockholms län.

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