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Modulação do estoque de carbono em paisagens fragmentadas da Mata Atlântica em função dos efeitos de borda / Edge effects modulation of carbon stocks in fragmented Atlantic forest landscapesCarvalho, Francisco D\'Albertas Gomes de 25 June 2015 (has links)
Apesar da reconhecida importância da fragmentação no balanço de carbono (C) das florestas tropicais, a maior parte do conhecimento a cerca deste assunto provém de estudos conduzidos na floresta Amazônica e desconsidera processos relacionados à influência da configuração da paisagem. Em particular, estimativas precisas da emissão de CO2 devido à fragmentação devem levar em consideração efeitos aditivos de borda e a idade das bordas. Nós investigamos estes efeitos sobre parâmetros estruturais de florestas (densidade, altura e área basal das árvores) e no estoque de C em oito fragmentos florestais (13 a 362 ha) antigos (>=70 anos), cercados de pastagens, em uma região de Mata Atlântica. Amostramos 5297 troncos, divididos em quatro tratamentos em cada um dos fragmentos: interior dos fragmentos; bordas antigas (>50 anos) em quina; bordas antigas retas; bordas novas (<50 anos) retas. Calculamos a biomassa acima do solo (BAS) através de equações alométricas que consideram a altura do tronco e seu diâmetro à altura do peito (DAP) e convertemos esse valor em carbono estocado na vegetação. O estoque de C foi altamente variável entre tratamentos, abrangendo valores entre 6.61 Mg ha-1 até 87.96 Mg ha-1 (média= 29.55 ± 14.97 Mg ha-1). As áreas de interior continham um estoque de C maior, bem como maior área basal, densidade de árvores e árvores mais altas do que as de borda. No entanto, a seleção de modelos não detectou influência da idade ou de efeitos aditivos no estoque de C. Nossos resultados sugerem que os padrões de efeitos de borda para a Mata Atlântica são diferentes dos observados em florestas tropicais fragmentadas mais recentemente, como é o caso da Amazônia. A Mata Atlântica tem um longo histórico de perturbação humana e uma dinâmica complexa de desmatamento e regeneração, que pode levar a uma condição de degradação generalizada, posto que até áreas mais distantes das bordas em manchas remanescentes de Mata Atlântica já perderam quantidades significativas de carbono. Nestas paisagens antrópicas, os efeitos de borda que atuam sobre a mortalidade de árvores e na redução da BAS podem ser mais abrangentes do que inicialmente estimado pelos modelos construídos para a floresta Amazônica. / Despite the importance of fragmentation for tropical forest carbon (C) balance, most of our knowledge comes from few sites in the Amazon and disregard underlying processes that relates landscape configuration with C stocks. Particularly, accurate estimation of CO2 emission from fragmentation must account for additive edge effects and edge age. Here we investigated those effects on carbon stock and forest structure (density, height, basal area) in eight old-growth forest (>=70 years) fragments (13 to 362 ha), surrounded by pasture, in the Brazilian Atlantic forest region. We sampled 5,297 stems in four distinct treatments, distributed in each fragment: fragment interiors; old (> 50 years) corner edge; old straight edge; and new (< 50 years) straight edge. Aboveground biomass (AGB) was estimated from tree height and diameter at breast height (DBH), and converted to carbon. C stock was highly variable between treatments, scoring from 6.61 Mg ha-1 up to 87.96 Mg ha-1 (average of 29.55 ± 14.97 Mg ha-1). Interior treatments had higher C stock, basal area, tree stem density and taller trees than edges. We found no significant effects of edge age or additive edge effects on C stocks. These results suggest that edge effects in the heavily-disturbed Atlantic rainforest may differ than those observed in more recently fragmented tropical forests, such as the Amazonian forest. In heavily human-modified landscapes, edge effects on tree mortality and reduction on AGB may contribute to overall higher levels of degradation across entire forest fragments, reducing the observed difference between edge and interior habitats, and suggesting that existing Amazonian forest models may underestimate the true impacts of tropical forest fragmentation for C storage.
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Modulação do estoque de carbono em paisagens fragmentadas da Mata Atlântica em função dos efeitos de borda / Edge effects modulation of carbon stocks in fragmented Atlantic forest landscapesFrancisco D\'Albertas Gomes de Carvalho 25 June 2015 (has links)
Apesar da reconhecida importância da fragmentação no balanço de carbono (C) das florestas tropicais, a maior parte do conhecimento a cerca deste assunto provém de estudos conduzidos na floresta Amazônica e desconsidera processos relacionados à influência da configuração da paisagem. Em particular, estimativas precisas da emissão de CO2 devido à fragmentação devem levar em consideração efeitos aditivos de borda e a idade das bordas. Nós investigamos estes efeitos sobre parâmetros estruturais de florestas (densidade, altura e área basal das árvores) e no estoque de C em oito fragmentos florestais (13 a 362 ha) antigos (>=70 anos), cercados de pastagens, em uma região de Mata Atlântica. Amostramos 5297 troncos, divididos em quatro tratamentos em cada um dos fragmentos: interior dos fragmentos; bordas antigas (>50 anos) em quina; bordas antigas retas; bordas novas (<50 anos) retas. Calculamos a biomassa acima do solo (BAS) através de equações alométricas que consideram a altura do tronco e seu diâmetro à altura do peito (DAP) e convertemos esse valor em carbono estocado na vegetação. O estoque de C foi altamente variável entre tratamentos, abrangendo valores entre 6.61 Mg ha-1 até 87.96 Mg ha-1 (média= 29.55 ± 14.97 Mg ha-1). As áreas de interior continham um estoque de C maior, bem como maior área basal, densidade de árvores e árvores mais altas do que as de borda. No entanto, a seleção de modelos não detectou influência da idade ou de efeitos aditivos no estoque de C. Nossos resultados sugerem que os padrões de efeitos de borda para a Mata Atlântica são diferentes dos observados em florestas tropicais fragmentadas mais recentemente, como é o caso da Amazônia. A Mata Atlântica tem um longo histórico de perturbação humana e uma dinâmica complexa de desmatamento e regeneração, que pode levar a uma condição de degradação generalizada, posto que até áreas mais distantes das bordas em manchas remanescentes de Mata Atlântica já perderam quantidades significativas de carbono. Nestas paisagens antrópicas, os efeitos de borda que atuam sobre a mortalidade de árvores e na redução da BAS podem ser mais abrangentes do que inicialmente estimado pelos modelos construídos para a floresta Amazônica. / Despite the importance of fragmentation for tropical forest carbon (C) balance, most of our knowledge comes from few sites in the Amazon and disregard underlying processes that relates landscape configuration with C stocks. Particularly, accurate estimation of CO2 emission from fragmentation must account for additive edge effects and edge age. Here we investigated those effects on carbon stock and forest structure (density, height, basal area) in eight old-growth forest (>=70 years) fragments (13 to 362 ha), surrounded by pasture, in the Brazilian Atlantic forest region. We sampled 5,297 stems in four distinct treatments, distributed in each fragment: fragment interiors; old (> 50 years) corner edge; old straight edge; and new (< 50 years) straight edge. Aboveground biomass (AGB) was estimated from tree height and diameter at breast height (DBH), and converted to carbon. C stock was highly variable between treatments, scoring from 6.61 Mg ha-1 up to 87.96 Mg ha-1 (average of 29.55 ± 14.97 Mg ha-1). Interior treatments had higher C stock, basal area, tree stem density and taller trees than edges. We found no significant effects of edge age or additive edge effects on C stocks. These results suggest that edge effects in the heavily-disturbed Atlantic rainforest may differ than those observed in more recently fragmented tropical forests, such as the Amazonian forest. In heavily human-modified landscapes, edge effects on tree mortality and reduction on AGB may contribute to overall higher levels of degradation across entire forest fragments, reducing the observed difference between edge and interior habitats, and suggesting that existing Amazonian forest models may underestimate the true impacts of tropical forest fragmentation for C storage.
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Quantification de services écosystémiques de régulation à l'échelle locale. Indicateurs, protocoles de terrain et incertitudes - Cas des services de pollinisation et de régulation du climat global / Evaluation of regulating ecosystem services at local scaleIndicators, field methods and uncertainties - Case of pollination and global climate regulation ecosystem servicesBartholomée, Océane 20 December 2018 (has links)
Les services écosystémiques (SE) désignent les bénéfices fournis par les écosystèmes à la société. En France, la législation cherche à les intégrer dans les études d’impact environnemental avec la promulgation de la Loi pour la reconquête de la biodiversité, de la nature et des paysages (2016). Pour ce faire, il est nécessaire de développer des méthodes de terrain d’estimation des SE. C’est dans ce cadre qu’une collaboration entre le Laboratoire d’Ecologie Alpine et le bureau d’études EGIS Environnement a vu le jour, afin de répondre à la question : comment quantifier les SE à l’échelle locale ?Pour cela, nous avons étudié deux SE de régulation régulièrement évoqués dans le contexte du changement global. Le service de pollinisation est essentiel pour l’alimentation humaine et est au cœur de l’actualité de par les déclins des populations d’insectes pollinisateurs. Le SE de régulation du climat global par la séquestration de carbone par les écosystèmes est d’intérêt majeur en regard des changements climatiques récents et annoncés.Nous avons suivi les quatre étapes du développement d’un protocole. Premièrement, pour le SE de pollinisation entomophile qui possède de nombreuses définitions dans la littérature, nous avons établi par une revue bibliographique un cadre conceptuel afin de définir le SE de pollinisation et d’identifier les indicateurs et leurs méthodes de mesures. Nous avons choisi pour la suite d’adopter la définition du SE de pollinisation comme la capacité de l’écosystème à soutenir la pollinisation entomophile, i.e. la présence d’insectes pollinisateurs. Deuxièmement, nous avons abordé la question du choix des indicateurs pour l’estimation de ce SE. En effet, la capacité du SE de pollinisation peut être estimée par des indicateurs directs, liés à la présence des insectes pollinisateurs sur la parcelle, et des indicateurs indirects, liés aux ressources d’alimentation et de nidification sur la parcelle d’étude et dans le paysage. Nous avons comparé les mesures de ces deux types d’indicateurs estimés en vergers et en prairies. Les objectifs étaient de tester la cohérence entre ces deux types d’indicateurs pour le SE de pollinisation et la possibilité d’une simplification du protocole d’estimation en la basant uniquement sur des indicateurs indirects. Les indicateurs indirects n’expliquaient pas une part suffisante de la variabilité observée dans les mesures d’abondance et de richesse des pollinisateurs pour permettre simplification du protocole.Troisièmement, nous avons cherché à simplifier le protocole d’estimation du SE de la régulation du climat global par la mesure des stocks de carbone en prairies et en forêts. Pour cela, nous avons comparé les estimations obtenues par des protocoles simplifiés à celles obtenues par un protocole plus complet et mesuré les incertitudes causées par ces simplifications. Le protocole d’estimation a pu ainsi être simplifié pour les deux compartiments de l’écosystème stockant le plus de carbone : la biomasse aérienne en forêt et le carbone organique du sol. Enfin, afin de tester l’applicabilité du protocole simplifié d’estimation du SE de régulation du climat global, nous l’avons testé sur des parcelles de zones humides, des écosystèmes stockant une grande quantité de carbone. Ces parcelles ont été placées dans un modèle d’états-et-transitions afin de tester si les mesures de gestion peuvent affecter les stocks de carbone des zones humides. Les actions de gestion sur la biomasse aérienne changeaient les stocks de carbone entre les zones humides herbacées et forestières. Le stock de carbone organique du sol, stock majeur dans les zones humides, ne différait pas entre les différents états étudiés, reflétant la difficulté d’agir sur ce compartiment.Cette étude montre que le développement méthodologique pour la quantification de SE sur le terrain peut mener à des protocoles simples et fiables mais que le processus de développement est différent selon les SE abordés. / Ecosystem services are benefits supplied by ecosystem to human societies. In France, recent legislation aims to include ecosystem service in environmental impact studies with the enactment of the Law for the recovery of biodiversity, nature and landscapes (2016). To do so, it is necessary to develop field methods for ecosystem service estimation. In this setting, a collaboration was established between the Laboratoire d’Ecologie Alpine and the environmental consultancy EGIS Environnement to answer the following question: how can ecosystem services be quantified at local scale?We studied two ecosystem services often cited in the global change context. The pollination service is essential for human food production. Given worldwide pollinator declines it is at the centre of scientific, citizen and political concerns. The service of global climate regulation by carbon sequestration by ecosystems is of major interest given the recent and coming climate changes.We investigated four key steps for developing a field protocol. First, the ecosystem service of entomophilous pollination has numerous definitions in the scientific literature. Thus, based on a literature review we built a conceptual framework for defining the pollination service and identifying quantifiable indicators and their measurement methods. We chose to define the pollination service as the ecosystem capacity to support entomophilous pollination, i.e. pollinating insect presence. Second, we worked on indicator selection for the pollination service estimation. Pollination capacity can be estimated through direct indicators linked to pollinator presence on the plot and through indirect indicators linked to feeding and nesting resources in the plot and in the landscape. We compared measures of these two types of indicators within orchards and grasslands. Our aims were to test consistency between both indicator types for the pollination service and the possibility of protocol simplification based on indirect indicators. Indirect indicators did not explain enough of the observed variability in pollinator abundance and richness to allow a protocol simplification.Third, we tried to simplify the estimation protocol of the ecosystem service of global climate regulation from measures of carbon stocks in grasslands and forests. We compared estimations obtained by simplified protocols to estimations obtained by a more complete protocol. We also quantified the uncertainties caused by these simplifications. The estimation protocol could be simplified for the two most important carbon pools: aboveground biomass in forests and soil organic carbon. Finally, to test the applicability of the simplified protocol of carbon stock estimations, we applied it on wetland plots. These plots were organized following in a state-and-transition model to test whether management decisions are likely to affect wetland carbon stocks. Management actions on aboveground biomass changed carbon stocks between herbaceous and forested wetland. Soil organic carbon, the major carbon stock in wetlands, was unchanged between the different studied stats, illustrating the difficulty to manage soil carbon stocks in the short term.This study shows that method development for field quantification of ecosystem service can lead to simple and reliable protocols. However, the development process is different for each ecosystem service.
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Ekosystemtjänster från anlagda och restaurerade våtmarker : Och hur de kan bidra till att de svenska miljökvalitetsmålen uppnås / Ecosystem services from constructed and restored wetlands : And how they can contribute to achieving the Swedish environmental quality objectivesHjerpe, Felicia, Olsson, Alexandra January 2022 (has links)
Under det senaste seklet har svensk våtmarksareal minskat med en fjärdedel, vilket motsvarar 2,7 miljoner hektar. Detta till följd av ett industrialiserat samhälle med ett starkt intresse i utbyggnad av jordbruk, skogsbruk och vattenkraft. Exploateringen av svensk våtmark har medfört att många av de betydelsefulla ekosystemtjänster våtmarker bidrar med har upphört. Idag är det på grund av denna förlust aktuellt att anlägga och restaurera våtmark, bland annat i syfte att erhålla en eller flera av dessa ekosystemtjänster. Syftet med denna rapport är att undersöka vilken miljö- och klimatpåverkan anlagda och restaurerade våtmarker medför samt huruvida de kan bidra till att de svenska miljökvalitetsmålen uppnås. Genom en omfattande litteraturstudie insamlades data som legat till grund för den bedömning som gett rapportens resultat. Resultatet visade på olika nivåer av påverkan på miljö och klimat från bland annat ekosystemtjänsterna vattenrening, biologisk mångfald och klimatreglering, med slutsatsen att den sammanlagda påverkan främst är positiv. Effekterna av ekosystemtjänsterna bedömdes även påverka företrädesvis sex av de sexton miljökvalitetsmålen för vilka en noggrannare bedömning genomfördes, med slutsatsen att anläggning och restaurering av våtmark har en främst positiv påverkan på fem av dessa mål. / During the last century, the Swedish wetland area has decreased by a quarter, equal to 2.7 million hectares, due to an industrialized society with a strong interest in further expansion of agriculture, forestry, and hydropower. The exploitation of Swedish wetlands has resulted in the cessation of many essential ecosystem services to which wetlands contribute. Due to this loss of wetland area, it is now relevant to construct and restore wetlands to obtain one or more ecosystem services. The purpose of this report is to investigate the extent to which these ecosystem services can be acquired from constructed and restored wetlands and whether these can contribute to achieving the Swedish environmental quality objectives. Data was collected through an extensive literature study which formed the basis for the assessment that led to the report's result. The result showed different levels of impact on the environment and climate from the ecosystem services water purification, biodiversity, and climate regulation, with the conclusion that the total effect is mainly positive. The effects of the ecosystem services were also assessed to affect primarily six of the sixteen environmental quality objectives for which a more accurate assessment was carried out, with the conclusion that construction and restoration of wetlands has a primarily positive effect on five of these objectives.
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Ecosystem services in a rural landscape of southwest OhioLin, Meimei 10 December 2012 (has links)
No description available.
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Furnitura multipla di servizi ecosistemici da culture energetiche poliennali / MULTIPLE ECOSYSTEM SERVICES PROVISION FROM PERENNIAL BIOENERGY CROPS / Multiple ecosystem services provision from perennial bioenergy cropsFERRARINI, ANDREA 17 March 2016 (has links)
La sfida nel 21esimo secolo è quella di fornire cibo e energia ad un mondo in continua crescita demografica e allo stesso tempo conservare l’ambiente. In questa tesi uno scenario alternativo di uso del suolo per la produzione di bioenergia è stato testato: le fasce tampone bioenergetiche. Considerate le problematiche ambientali legate al trilemma “cibo-energia-ambiente”, la struttura del Millennium Ecosystem Assessment sui servizi ecosistemici (SE) fornisce l’opportunità di esaminare l’impatto ambientale di questo nuovo scenario bioenergetico. In questa tesi ho mirato a determinare in che misura le colture bioenergetiche poliennali influenzino la fornitura multipla di SE quando coltivate come fasce tampone. Per raggiungere questo obiettivo, ho combinato una revisione sistematica della letteratura sui SE forniti da colture energetiche poliennali (CEP) con una prova sperimentale su fasce tampone bioenergetiche.
Applicando una metodologia di attribuzione di punteggi agli impatti sui SE estratti dal materiale bibliografico raccolto, ho mostrato come coltivando le CEP lungo i margini dei campi coltivati esista una grande opportunità per sostenere la fornitura multipla di SE. La coltivazione delle CEP come fasce tampone adiacenti a campi agricoli può migliorare i SE di regolazione del clima, dell’acqua e della biodiversità, sostenere la salute del suolo e fornire biomassa dedicata alla produzione di bioenergia. Al contrario, la conversione di margini di campo di prati stabili ha mostrato un impatto netto negativo sulla fornitura multipla di SE.
Tuttavia, due sono i principali svantaggi che sono stati individuati relativamente alla creazione e alla gestione delle fasce tampone bioenergetiche. Primo, diversi sono i fattori sito-specifici di tipo idro-pedologico lungo i margini dei campi che devono essere tenuti in considerazione poiché possono avere un impatto negativo sull’affrancamento delle colture e la loro produttività a medio-lungo termine. Secondo, riguardo la catena di approvvigionamento della biomassa, uno spazio di lavoro limitato per le macchine agricole è stato riconosciuto come principale inconveniente per le fasce tampone bioenergetiche rispetto alle CEP coltivate in pieno campo. Questo limite logistico di natura spaziale può inevitabilmente incrementare i tempi e le operazioni di taglio e raccolta della biomassa e quindi in ultima il consumo di combustili fossili.
Grazie ad una prova sperimentale su fasce tampone bioenergetiche condotta in un terreno sabbioso-limoso con falda acquifera poco profonda contaminata da nitrati di origine agricola, si è dimostrato come fasce tampone coltivate con miscanto e salice siano in grado di intercettare e rimuovere i nitrati in falda (>60%) tanto quanto fasce tampone con specie avventizie. CEP come miscanto e salice, grazie ai loro apparati radicali profondi, hanno mostrato essere in grado di promuovere delle relazioni pianta-suolo-microorganismi lungo l’intero profilo del suolo utili ai fini ambientali delle fasce tampone bioenergetiche. Infatti, negli strati più profondi, una maggiore biomassa radicale ha portato le CEP a superare le specie avventizie in termini di rimozione biologica dei nitrati dal suolo e mitigazione potenziale dei gas serra. Inoltre, i risultati relativi alla produzione di biomassa e le asportazioni di N legata alla fase di raccolta hanno confermato ulteriormente come la coltivazione di CEP lungo i corsi d’acqua sia una strategia win-win: produzione di biomassa e protezione dell’ambiente.
In conclusione, il potenziale rivelato dalle CEP in termini di fornitura multipla di SE suggerisce che la loro coltivazione, come elementi paesaggistici perenni in posizioni strategiche all'interno di paesaggio agricolo, è un'opzione promettente per promuovere l'intensificazione ecologicamente sostenibile degli agroecosistemi. / The 21st century will challenge agriculture to feed and fuel a growing world while conserving the environment. In this thesis an alternative bioenergy land use scenario to the conversion of marginal land has been tested: the bioenergy buffers. Given the environmental issues related to “food-energy-environment” trilemma, the Millennium Ecosystem Assessment framework on ES provides an opportunity to examine the environmental impacts of this new bioenergy land use scenario. In this thesis I aimed to determine to what extent do the perennial bioenergy crops affect the delivery of multiple ES when cultivated as bioenergy buffers. To reach this aim, I combined a systematic revision of literature on ES provided by perennial bioenergy crops with a field experiment on bioenergy buffers.
Applying an impact scoring methodology to the effects on ES extracted from literature, I showed that, cultivating perennial bioenergy crops along field margins of former croplands offer a great opportunity to sustain the provision of multiple ES. The cultivation of perennial bioenergy crops on field margins can improve climate, biodiversity and water regulation services, sustain soil health and provide biomass for energetic purposes. On the contrary, grassland conversion showed a net negative impact on multiple ES provision.
Nevertheless, I found two main shortcomings related to bioenergy buffers establishment and management. First, several site-specific factors along field margins must be taken into account, because they can affect crop establishment and buffers long-term productivity. Second, regarding to biomass supply chain, a limited working space for the farm machinery operations has been recognized as the main disadvantages of bioenergy buffers compared to large-scale bioenergy plantations. This spatial logistics constraint may inevitably increase harvest and collection operation times and fossil fuel consumption.
Conducting a field experiment with bioenergy buffers in a nitrate-enriched shallow groundwater, I showed that miscanthus and willow buffers are able to efficiently intercept and remove from groundwater the incoming NO3-N as much as buffer strips with spontaneous species. Yet, due to their deep rooting systems, bioenergy buffers promote significant plant-microbial linkages along the soil profile. At deeper soil layers, a higher fine root biomass led perennial bioenergy crops to outperform patches of adventitious vegetation in terms of biological N removal from soil and belowground GHG mitigation potential. The results on biomass production and N removal via harvesting further confirmed that the cultivation of perennial bioenergy crops along watercourses is an effective win-win strategy: biomass production and protection of the environment.
In conclusion, the revealed potential of perennial bioenergy crops on multiple ES provision implies that their cultivation as perennial landscape elements in strategic locations within landscape is a promising option to promote the ecological sustainable intensification of agroecosystems.
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Carbon Dynamics of Subtropical Wetland Communities in South FloridaVilla Betancur, Jorge Andres 06 June 2014 (has links)
No description available.
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