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1	Decomposition of leaf litter in headwater streams. : Effects of changes in the environment and contribution of microbial and shredder activity on litter decomposition. Lidman, Johan January 2015 (has links) Headwaters, which are the most common stream order in the landscape, are mostly dependent on energy produced in the terrestrial system, largely consisting of leaf litter from riparian vegetation. The aim of this study was to investigate the decomposition in headwaters of leaf litter from three native (alder, birch, spruce) and one non-native (lodgepole pine) species and how decomposition responds to changes in the environment. Further, microbial and shredder influences on leaf-litter decomposition and aquatic decomposer ability to adapt to non-native species was investigated. By using field-data from this study, calculations were made to assess if microbes and shredders are resource limited. Litterbags were placed in 20 headwater streams in northern Sweden that varied in water chemistry, stream physical characteristics and riparian vegetation. The results revealed that species litter decomposition of different plant species was affected differently by changes in environmental variables. Alder and birch decomposition were positively associated, whereas lodgepole pine deviated from the other species in decomposition and its relationship with important environmental variables, indicating that the ability of the boreal aquatic systems to decompose litter differs between introduced and native species. When including macroinvertebrates, shredder fragmentation generally increased decomposition, but was not significant for all sites. Resource availability for microbes and shredders was controlled by litter input, and no risk of resource limitations was evident during the study period. These findings highlight a complexity of the decomposition process that needs to be considered when predicting changes due to human activities. Leaf-litter decomposition headwaters microbial decomposition shredders ecosystem adaptation
2	Invasive Species Shift Fungal Driven Decomposition in Midwestern Forests Reed, Adam M. 20 May 2020 (has links) No description available. Biology Ecology Microbiology Fungi Lonicera maackii Agrilus planipennis leaf litter decomposition enzymes nutrient cycling
3	Efeito da exclusão experimental de vertebrados na decomposição de três tipos de plantas sob diferentes coberturas de solo no parque estadual da serra do mar - núcleo Santa Virgínia / Evaluation of the experimental exclusion of vertebrates on the decomposition of three species of plants under different land uses in the state park serra do mar- nucleus Santa Virgínia Medeiros, Gabriela Garcia 11 July 2016 (has links) A diversidade da Mata Atlântica está constantemente ameaçada devido à perda de habitats provocada pela destruição e alteração dos ambientes naturais. Este fato é muito preocupante, pois os remanescentes florestais da Mata Atlântica encontram-se, em sua maior parte, em pequenos fragmentos altamente perturbados, acarretando em perda de biodiversidade da fauna existente. Muitos estudos demonstraram que mamíferos e aves especialistas (e. g. insetívoros) são muito sensíveis à fragmentação ambiental, tendendo a desaparecer em áreas abertas. A perda destes animais pode alterar a densidade de artrópodes e as taxas de herbivoria, ocasionando um efeito cascata (top- down), que causará influência até na decomposição e ciclagem de nutrientes. Entretanto o estudo de como esse efeito top-down ocorre em diferentes coberturas de solo ainda não foi testado, desta forma, objetivou-se investigar como as taxas de decomposição são modificadas pela exclusão experimental de vertebrados em áreas com diferentes coberturas vegetais na mata Atlântica. Parcelas de exclusão de vertebrados e parcelas controle foram alocadas em áreas com coberturas vegetais de pastagem e floresta, para verificar como ocorre o efeito top-down na decomposição. Utilizaram-se três tipos de serapilheira diferentes, uma gramínea (Brachiaria decumbens), uma espécie pioneira (Tibouchina sellowiana) e uma mistura de folhas de diferentes espécies da floresta primária adjacente. A técnica dos litter bags foi utilizada para avaliar as diferentes taxas de decomposição e foram coletados em intervalos de 16, 36, 71, 181 e 247 dias. O resíduo vegetal foi limpo, seco e pesado para obtenção das massas remanescentes (%) e taxa de decomposição, após isso o material foi triturado e pesado em subamostras para analises de nutrientes e compostos orgânicos (nitrogênio, carbono, fósforo, lignina, celulose e polifenóis). A taxa de decomposição não diferiu entre os tratamentos controle e exclusão de vertebrados, desta forma, não foi possível observar o efeito top-down da exclusão de vertebrados neste estudo, provavelmente devido à elevada biodiversidade da fauna do solo na área onde o experimento foi realizado e sugere-se repeti-lo em uma área menor e mais desconectada, com a finalidade de simular como o efeito cascata ocorre em pequenos fragmentos da mata Atlântica. Além disso, a decomposição foi mais rápida nos litter bags localizados na floresta do que na pastagem e as folhas de gramínea tiveram maior perda de massa do que as folhas de floresta primária e T. sellowiana, possivelmente devido às interações entre nitrogênio, lignina e a relação C:N dos resíduos vegetais. / The diversity of Atlantic forest is constantly threatened due to habitat loss caused by the destruction and alteration of natural environments, and most of the biome is now in small and fragmented areas. This fact is of a great concern, because the remaining areas in Atlantic forest are in small highly disturbed fragments, resulting in loss of biodiversity of the existing fauna, like mammals and birds. Many studies have shown that specialist mammals and birds (e.g. insectivores) are very sensitive to environment fragmentation and tend to disappear in open areas. The loss of these animals is likely to cause an increase in the density of arthropods and rates of herbivory, causing a top-down effect that may even influence the cycling of nutrients. We aimed to investigate how decomposition rates are modified by the experimental exclusion of vertebrates in an area with different land coverage in the Atlantic forest. Vertebrate exclusion plots and control plots were allocated in areas with different land coverage (pasture and forest) to evaluate the top-down effects in decomposition. We used three different kinds of leaves, being one grass (Brachiaria decumbens), one very common primary specie of the area (Tibouchina sellowiana) and a mix of primary forest leaves. Litterbags were used to evaluate the decomposition rate and it was collected during intervals of 16, 36, 71, 181 and 247 days. The vegetal residue was cleaned, dried and weighted to obtain the remaining mass (%) and decomposition rate, after that, the material was milled and weighted in subsamples for analyses of nutritional quality (N, C, P, lignin, cellulose and polyphenols). The decomposition rate was not different for the control and vertebrate exclusion plots, as a result, it was not possible to show the top-down effect in decomposition, possibly because of the high soil biodiversity in the area where the experiment was done. It would be very important to remake this experiment in a smaller and more disconnected area, in order to show how this cascade effect occur in Atlantic forest´s smaller fragments. Furthermore, the decomposition was faster at the forest plots than at the pastureland plots and the grass leaf litter presented the higher decomposition rate than the primary forest leaves and T. sellowiana and it was possibly caused by the interaction between nitrogen, lignin and C:N ratio. Atlantic forest Decomposição Efeito top-down Leaf litter decomposition Loss of biodiversity Mata Atlântica Pastagem Pastureland Perda de biodiversidade Top-down effect
4	Efeito da exclusão experimental de vertebrados na decomposição de três tipos de plantas sob diferentes coberturas de solo no parque estadual da serra do mar - núcleo Santa Virgínia / Evaluation of the experimental exclusion of vertebrates on the decomposition of three species of plants under different land uses in the state park serra do mar- nucleus Santa Virgínia Gabriela Garcia Medeiros 11 July 2016 (has links) A diversidade da Mata Atlântica está constantemente ameaçada devido à perda de habitats provocada pela destruição e alteração dos ambientes naturais. Este fato é muito preocupante, pois os remanescentes florestais da Mata Atlântica encontram-se, em sua maior parte, em pequenos fragmentos altamente perturbados, acarretando em perda de biodiversidade da fauna existente. Muitos estudos demonstraram que mamíferos e aves especialistas (e. g. insetívoros) são muito sensíveis à fragmentação ambiental, tendendo a desaparecer em áreas abertas. A perda destes animais pode alterar a densidade de artrópodes e as taxas de herbivoria, ocasionando um efeito cascata (top- down), que causará influência até na decomposição e ciclagem de nutrientes. Entretanto o estudo de como esse efeito top-down ocorre em diferentes coberturas de solo ainda não foi testado, desta forma, objetivou-se investigar como as taxas de decomposição são modificadas pela exclusão experimental de vertebrados em áreas com diferentes coberturas vegetais na mata Atlântica. Parcelas de exclusão de vertebrados e parcelas controle foram alocadas em áreas com coberturas vegetais de pastagem e floresta, para verificar como ocorre o efeito top-down na decomposição. Utilizaram-se três tipos de serapilheira diferentes, uma gramínea (Brachiaria decumbens), uma espécie pioneira (Tibouchina sellowiana) e uma mistura de folhas de diferentes espécies da floresta primária adjacente. A técnica dos litter bags foi utilizada para avaliar as diferentes taxas de decomposição e foram coletados em intervalos de 16, 36, 71, 181 e 247 dias. O resíduo vegetal foi limpo, seco e pesado para obtenção das massas remanescentes (%) e taxa de decomposição, após isso o material foi triturado e pesado em subamostras para analises de nutrientes e compostos orgânicos (nitrogênio, carbono, fósforo, lignina, celulose e polifenóis). A taxa de decomposição não diferiu entre os tratamentos controle e exclusão de vertebrados, desta forma, não foi possível observar o efeito top-down da exclusão de vertebrados neste estudo, provavelmente devido à elevada biodiversidade da fauna do solo na área onde o experimento foi realizado e sugere-se repeti-lo em uma área menor e mais desconectada, com a finalidade de simular como o efeito cascata ocorre em pequenos fragmentos da mata Atlântica. Além disso, a decomposição foi mais rápida nos litter bags localizados na floresta do que na pastagem e as folhas de gramínea tiveram maior perda de massa do que as folhas de floresta primária e T. sellowiana, possivelmente devido às interações entre nitrogênio, lignina e a relação C:N dos resíduos vegetais. / The diversity of Atlantic forest is constantly threatened due to habitat loss caused by the destruction and alteration of natural environments, and most of the biome is now in small and fragmented areas. This fact is of a great concern, because the remaining areas in Atlantic forest are in small highly disturbed fragments, resulting in loss of biodiversity of the existing fauna, like mammals and birds. Many studies have shown that specialist mammals and birds (e.g. insectivores) are very sensitive to environment fragmentation and tend to disappear in open areas. The loss of these animals is likely to cause an increase in the density of arthropods and rates of herbivory, causing a top-down effect that may even influence the cycling of nutrients. We aimed to investigate how decomposition rates are modified by the experimental exclusion of vertebrates in an area with different land coverage in the Atlantic forest. Vertebrate exclusion plots and control plots were allocated in areas with different land coverage (pasture and forest) to evaluate the top-down effects in decomposition. We used three different kinds of leaves, being one grass (Brachiaria decumbens), one very common primary specie of the area (Tibouchina sellowiana) and a mix of primary forest leaves. Litterbags were used to evaluate the decomposition rate and it was collected during intervals of 16, 36, 71, 181 and 247 days. The vegetal residue was cleaned, dried and weighted to obtain the remaining mass (%) and decomposition rate, after that, the material was milled and weighted in subsamples for analyses of nutritional quality (N, C, P, lignin, cellulose and polyphenols). The decomposition rate was not different for the control and vertebrate exclusion plots, as a result, it was not possible to show the top-down effect in decomposition, possibly because of the high soil biodiversity in the area where the experiment was done. It would be very important to remake this experiment in a smaller and more disconnected area, in order to show how this cascade effect occur in Atlantic forest´s smaller fragments. Furthermore, the decomposition was faster at the forest plots than at the pastureland plots and the grass leaf litter presented the higher decomposition rate than the primary forest leaves and T. sellowiana and it was possibly caused by the interaction between nitrogen, lignin and C:N ratio. Decomposição Efeito top-down Mata Atlântica Pastagem Perda de biodiversidade Atlantic forest Leaf litter decomposition Loss of biodiversity Pastureland Top-down effect
5	Macroinvertébrés benthiques et hyphomycètes aquatiques : diversité et implication dans le fonctionnement écosystémique des cours d'eau de Guinée / Benthic macroinvertebrates and aquatic hyphomycetes : diversity and implication in Guinean stream ecosystem functionning Tenkiano, Nathalie Sia Doumbou 23 May 2017 (has links) Macroinvertébrés benthiques et hyphomycètes aquatiques représentent une part importante de la biocénose des cours d'eau de tête de bassin. D'un point de vue écologique, ils participent au recyclage du carbone organique à travers leur implication dans certaines fonctions écosystémiques telles que la décomposition de la litière. Ce processus est vital pour les cours d'eau forestiers ou bordés de ripisylve. Si celui-ci est aujourd'hui bien étudié en milieu tempéré, la contribution des deux types de décomposeurs (champignons et invertébrés) reste mal comprise en milieu tropical du fait de la variabilité éco-géographique prononcée de ce biome. Cette thèse qui concernait deux régions de Guinée jusque-là inexplorées, la Guinée Forestière et la Haute-Guinée, avait un double objectif. D'une part, il s'agissait de documenter la diversité taxonomique et trophique des communautés de macroinvertébrés benthiques et la composition des assemblages d'hyphomycètes aquatiques. D'autre part, la thèse visait à caractériser le processus de décomposition de la litière et les communautés de décomposeurs associés, notamment dans une perspective de quantification de la contribution de chacun des deux groupes. Cette dernière étude répondait ainsi à l'hypothèse d'une plus grande importance des décomposeurs fongiques aux faibles latitudes en comparaison des latitudes élevées où l'activité des décomposeurs invertébrés est prépondérante. Une étude exploratoire menée sur 12 rivières a révélé une diversité de 45 taxons correspondant à la faune macrobenthique de l'Afrique de l'Ouest, et incluant un nouveau taxon de crustacé pour la Guinée. Les deux régions d'étude se différenciaient dans la composition des groupes trophiques : les déchiqueteurs, essentiellement représentés par les crevettes, étaient dominants dans les cours d'eau de Guinée Forestière, et les racleurs abondaient dans ceux de savane en Haute-Guinée, caractérisés par une faible densité de la végétation riveraine. Par ailleurs, les prélèvements d'eau et d'écume ont décelé la présence de 29 espèces d'hyphomycètes aquatiques. A ces espèces viennent s'ajouter 9 autres identifiées sur les litières lors des expériences de décomposition portant ainsi à 38 le nombre d'espèces identifiées pour la Guinée au cours de cette thèse, dont 12 sont nouvelles pour le continent africain. Les expériences menées dans les deux régions montrent une décomposition rapide, probablement en partie liée à la forte teneur en nutriments des litières, et une faible diversité des décomposeurs associés. Dans les deux cours d'eau temporaires de savane étudiés, les invertébrés associés aux litières étaient absents. Comme une compensation, l'activité des champignons était accrue, lesquels accumulaient une biomasse mycélienne très élevée. La présence de déchiqueteurs potentiels a été notée dans les deux cours d'eau étudiés de Guinée Forestière mais leurs densités étaient faibles. Dans les deux régions, la différence entre les taux de décomposition totale et microbienne était faible, soulignant une importance minime des invertébrés et un rôle majeur des champignons et confirmant notre hypothèse. Il a également été montré au cours de cette thèse que les asséchements des cours d'eau avaient peu d'influence sur le taux de décomposition de la litière. Par ailleurs, une faible diversité des organismes décomposeurs, invertébrés et hyphomycètes aquatiques, ne semble pas altérer le processus de décomposition. Ainsi les lois générales basées sur les facteurs déterminants de la décomposition des litières tels que la qualité du matériel végétal ou un rôle équilibré entre les deux types de décomposeur, ne sont pas nécessairement transposables aux milieux tropicaux. Enfin, les résultats de cette thèse suggèrent que les conséquences du changement climatique sur le recyclage du carbone organique dans les eaux d'Afrique de l'Ouest, région prédite comme très affectée, pourraient être tempérées par la prédominance d'organismes peu vulnérables. / Benthic macroinvertebrates and aquatic hyphomycetes are major components of the biocenosis of headwater ecosystems. Both of them contribute to essential ecosystem functions like leaf litter decomposition as part of the organic carbon cycling. Such a process is vital for woodland streams or riparian tree-lined rivers. While this process is very well documented for temperate regions, the contribution of both types of decomposers, i.e. fungi and invertebrates, remains poorly understood in the tropics partly due to the large ecogeographic variability prevailing in this biome. The present thesis dealt with two unexplored regions of Guinea (Forested Guinea and Upper Guinea) and was motivated by a double objective. First, it aimed at documenting the taxonomic and trophic diversity of benthic macroinvertebrate communities together with the composition of aquatic hyphomycete assemblages. The second objective was to characterize leaf litter decomposition and leaf-associated decomposers, particularly in the perspective of quantifying the relative contribution of both decomposer types. The latter study specifically addressed the hypothesis of a greater importance of fungal decomposers at low latitudes compared to higher latitudes where the activity of invertebrate decomposers prevails. An exploratory survey conducted in 12 streams revealed the occurrence of 45 taxa belonging to the macrobenthic fauna of West Africa and including a new genus, Asellus, which completes the list of known crustacean taxa of Guinea. Both regions differed in the importance of the Functional Feeding Groups: shredders, mainly consisting in shrimps, dominated in Forested Guinea whereas scrapers were abundant in the savannah streams of Upper Guinea, which were characterized by scarce riparian vegetation. In stream water and foam, a total of 29 species of aquatic hyphomycetes were identified. Moreover, 9 additional species were found as sporulating on leaves in litter decomposition experiments, which led to a total of 38 species for Guinea with 12 being new for Africa. This thesis thus substantially expanded the list of known species for Africa. The experiments carried out in both regions showed a fast leaf litter decomposition, likely partly due to the high nutrient contents in litter, and a low diversity of leaf-associated decomposers. In the two studied temporary savannah streams, no leaf-associated invertebrates occurred. The latter was apparently compensated by a strong fungal activity as illustrated by very high mycelial biomass accrual. In the two studied streams of Forested Guinea, the occurrence of Caridina africana (Atyidae crustacean) as potential shredder could explain the leaf mass loss due to invertebrates, even though their density remained low. In both regions, the discrepancies between total and microbial decomposition rates were weak, highlighting a minute contribution of invertebrates and a major role of fungi thus supporting our hypothesis. The present results suggest that droughts resulted in low effects on the rate of leaf decomposition. Furthermore, leaf decomposition did not seem to be affected by the poor diversity of decomposers, i.e. invertebrates and aquatic hyphomycetes. Overall, the principles of leaf decomposition control by factors like the quality of leaf litter and the balanced involvement of both decomposer types do not appear to be fully applicable to tropical environments. Finally, the findings of this thesis suggest that the consequences of climatic change on the cycling of organic carbon in the aquatic ecosystems of West Africa, i.e. a region predicted to be particularly affected, could be mitigated by the dominance of organisms exhibiting a low vulnerability. Rivière Invertébrés benthiques Champignons aquatiques Décomposition Litières Forêt Savane Stream Benthic macroinvertebrates Aquatic fungi Leaf litter decomposition Forest Savannah
6	Biomass production and nutrient cycling in short-rotation coppice willow (Salix spp.) bioenergy plantations in Saskatchewan, Canada 2013 December 1900 (has links) Biomass energy is currently the largest renewable contributor to global energy supply and there is increasing demand for bioenergy feedstock. Consequently, the production of purpose-grown woody bioenergy crops, such as short rotation coppice (SRC) willow, is expected to proliferate. Although the economic and environmental benefits associated with SRC willow production are well documented, systematic assessments of nutrient cycling within these plantations are rare. The objective of this study was to examine biomass production and biogeochemical cycling of nitrogen (N), phosphorus (P), potassium (K), sulphur (S), calcium (Ca), and magnesium (Mg) during an initial four-year rotation of six willow varieties grown at four plantations along a 500 km north-south pedoclimatic gradient within Saskatchewan, Canada. Nutrient budgets were also calculated after quantifying various nutrient inputs (e.g., atmospheric deposition, soil mineral weathering, and organic matter mineralization), outputs (e.g., above- and below-ground biomass, leaching, and denitrification), and transfers (e.g., canopy exchange, leaf litter decomposition, and fine root turnover) affecting the plant available soil nutrient pool. Total stem, leaf litter, and below-ground (primarily fine roots) biomass production after four years averaged 19.0, 7.1, and 12.5 Mg ha-1, respectively, with corresponding soil nutrient budget deficits of 17, 39, 112, 271, and 74 kg ha-1 of N, P, K, Ca, and Mg, respectively, but a soil S surplus of 60 kg ha-1. Despite willow’s relatively low nutrient-demanding nature, negligible leaching and denitrification losses, and substantial nutrient cycling from leaf litter, the nutrient export in harvested biomass over multiple rotations will require soil nutrient amendments, particularly N and P, to maintain plantation productivity. Given the apparent eventual need for supplemental fertility to support adequate willow growth over the 22-yr plantation life span, the fate of broadcast 15N-labelled fertilizer was also examined. Though the willow accumulated less than ⅓ of the applied fertilizer N after one year, the majority of the residual fertilizer N (51%) remained available for willow uptake in subsequent years. Further research is needed to track the fate of applied fertilizers over multiple rotations to better understand fertilizer dynamics for optimizing SRC willow agronomy; thus helping to promote its viability as a biomass energy feedstock option. Chernozem decomposition limit value decomposition rate constant canopy exchange dry deposition fine root turnover leaching leaf litter decomposition mineral weathering nutrient budgets 15N-labelled fertilizer principal component analysis Vertisol
7	Productivity and nutrient relations of trees in deciduous forests differing in tree species diversity / Produktivität und Nährstoffhaushalt der Bäume in Laubwäldern unterschiedlicher Baumartendiversität Jacob, Mascha 19 March 2009 (has links) No description available. 570 Biowissenschaften, Biologie Mathematics and Computer Science Biodiversität Nationalpark Hainich Produktivität Laubwald temperate Wälder Streuzersetzung biodiversity National Park Hainich above-ground productivity temperate forest leaf litter decomposition 42.9

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