Analyse et modélisation de l'eutrophisation de la Loire / Analysing and modelling eutrophisation in the Loire river

Minaudo, Camille

04 December 2015

Ce travail a pour objectif d’étudier les conditions physicochimiques qui causent dans la Loire des développements excessifs de phytoplancton, et de mettre en évidence les modifications des équilibres biogéochimiques qui en résultent. L’analyse des variables de l’eutrophisation a été conduite sur plusieurs niveaux d’échelle temporelle et spatiale, sur la base de longues chroniques de qualité de l’eau (1980- 2012), de données acquises à l’échelle journalière pendant la thèse (2012-2014), et d’un modèle numérique biogéochimique à résolution horaire. Depuis les conditions hypereutrophes des années 1980, la biomasse phytoplanctonique qui se développe en période estivale a été réduite d’un facteur 2,5 dans la Loire et dans ses affluents, de manière concomitante avec la baisse généralisée d’un facteur 3 des teneurs en phosphore biodisponible, liée au contrôle des rejets ponctuels urbains et industriels. Le fleuve de la Loire (France) reste cependant sensible à l’eutrophisation, du fait d’une forte pression agricole et urbaine, des étiages prononcés, et une morphologie fluviale à chenaux multiples qui ralentit l’écoulement, laissant pleinement au phytoplancton le temps de se développer. Lorsque les conditions hydrologiques le permettent, le développement du phytoplancton impacte fortement le fonctionnement de l’écosystème, en agissant significativement sur les cycles biogéochimiques des nutriments, du carbone et de l’oxygène. / This thesis aims at studying the physical and chemical causes and consequences that result from excessive phytoplankton growth in the Loire River. The analysis identified some parameters characterizing river eutrophication and was conducted on several spatial and temporal scales. This was based on long-term water quality time-series (1980-2012), a daily survey carried out during this work (2012-2014), and the numerical modeling of the river biogeochemical functioning with an hourly resolution. Phytoplankton development in summer was reduced 2.5-fold in the Loire River and in the main tributaries, synchronously with the generalized reduction 3-fold of bioavailable phosphorus as a result of controlling and limiting phosphorus point sources. However, the Loire River remains sensitive to eutrophication, with a significant urban and agricultural pressure, low water levels in summer, and its multiple channels morphology slowing down the water velocity. All these factors combined favor phytoplankton development. When hydrological conditions are favorable, phytoplankton grows and significantly affects the ecosystem functioning, with an impact on nutrients, carbon and oxygen biogeochemical cycles.

Eutrophisation des fleuves

Évolutions long-terme

Fonctionnement biogéochimique

Modélisation hydrobiogéochimique

Nutriments

Carbone organique

Loire

River eutrophication

Long-term trends

Biogeochemical functioning

Hydrobiogeochemical modelling

Nutrients

Organic carbon

Loire River

Effet du type de sol sur le fonctionnement biogéochimique des écosystèmes forestiers / Influence of soil type on the biogeochemical functioning of forest ecosystems

Kirchen, Gil

18 December 2017

Cette thèse porte sur l’impact du type de sol sur le fonctionnement biogéochimique d’un écosystème forestier typique d’Europe centrale et occidentale. Pour cette étude, un dispositif expérimental a été mis en place par l’INRA et l’ANDRA au sein d’une hêtraie (Fagus sylvatica) dans la forêt de Montiers-sur-Saulx (Meuse, France) afin de suivre les cycles biogéochimiques entre les différents compartiments de l’écosystème (l’atmosphère, la canopée, la litière et le sol). L’intérêt particulier du site expérimental de Montiers vient du contraste important entre les types de sols pour un même peuplement : rendisol, calci-brunisol et alocrisol/brunisol. Pour la première fois, les stocks et les flux de l’eau et des éléments ont été mesurés et comparés in situ et sur le long terme (entre janvier 2012 et décembre 2015) sur des sols forestiers différents, toutes les autres conditions du site égales par ailleurs (climat, apports atmosphériques, âge et structure du peuplement). Les stocks totaux et échangeables dans le sol et les stocks dans les différents compartiments de la biomasse végétale (branches, tronc, racines grosses et fines) ont été déterminés par le biais d’analyses chimiques et de modélisations. Les flux élémentaires ont été calculés à partir des prélèvements mensuels des solutions de l’écosystème (dépôt atmosphérique, pluviolessivat, écoulement de tronc, solutions libres et liées du sol) et des chutes de litière. Le modèle hydrique BILJOU© a été utilisé pour estimer les composantes du bilan hydrique de l’écosystème. Les résultats montrent que la réserve utile du sol, les stocks des éléments dans le sol, les compositions chimiques des solutions du sol, la stratégie de colonisation racinaire et la production de biomasse pérenne diffèrent fortement en fonction du type de sol. Contrairement à ce que l’on pouvait supposer compte tenu des différences marquées entre les signatures chimiques des solutions des trois sols, les compositions foliaires du peuplement et les flux des éléments hors sol en solution (échange de la canopée, apport au sol) et sous forme solide (chute de litière) ne diffèrent pas ou peu entre les trois stations expérimentales pour la majorité des éléments. La part biologique des cycles minéraux est globalement prédominante et le renouvellement des racines fines représente un flux de recyclage généralement supérieur à la chute de litière aérienne. Nous montrons également que la quantité d’eau transpirée par la canopée, directement liée à la taille de la réserve utile du sol, est le facteur de contrôle principal de la productivité du peuplement à l’échelle annuelle. Des processus d’adaptation du peuplement aux conditions physico-chimiques du sol semblent réduire, voire compenser entièrement, les facteurs secondaires de contrôle de la productivité du peuplement (notamment la disponibilité des nutriments dans le sol). Ainsi un enjeu significatif pour les gestionnaires forestiers pourrait être l’adaptation des pratiques sylvicoles à des parcelles de gestion davantage basées sur les propriétés physiques des sols, et en particulier les profondeurs d’apparition de la roche-mère et de colonisation racinaire / This thesis deals with the impact of soil type on the biogeochemical functioning of a typical forest ecosystem of Central and Western Europe. For this study, a strongly instrumented experimental site was implemented in a beech stand (Fagus sylvatica) within the state forest of Montiers-sur-Saulx (Meuse, France), in order to monitor the biogeochemical cycling between the different compartments of the ecosystem (the atmosphere, the canopy, the forest floor and the soil). The particular value of the Montiers experimental site resides in the strong contrast between soil types under the same beech stand: Rendzic Leptosol, Eutric Cambisol and Dystric Cambisol. For the first time, stocks and fluxes of water and elements were measured and compared in situ and over the long term (from January 2012 to December 2015) on different forest soil types, all other site conditions being equal (climate, atmospheric inputs, stand age and structure). Total and exchangeable pools in the soil and stocks in the different compartments of the vegetation (branches, trunk, fine and coarse roots) were determined via chemical analysis and modelisation. Fluxes of elements were calculated from monthly sampling of the ecosystem’s solutions (atmospheric deposition, throughfall, stemflow, gravitational and bound soil solutions) and of litter fall. The water balance model BILJOU© was used to estimate the different components of the water budget. The results show that the soil water holding capacity, the stocks of elements in the soil, the chemical composition of soil solutions, the rooting strategy and the perennial biomass production differ strongly between soil types. Contrary to what might have been expected in regard to the marked differences between the chemical signatures of the soils solutions in the three soils, the foliar elemental composition of the beech stand and the aboveground fluxes of elements in solution (canopy exchange, stand deposition) and in solid state (litter fall) do not differ significantly between the three experimental stations for the majority of the studied elements. The biological part of the mineral cycles is overall predominant and the recycling through fine roots turnover is generally higher than litter fall. We also show that the quantity of water transpired by the forest canopy, directly linked to the soil water holding capacity, is the primary control factor of the annual stand productivity. Stand adaptation mechanisms to physico-chemical soil properties seemed to reduce, or even entirely compensate for, secondary factors controlling the stand productivity (in particular nutrient availability in the soil). Thus a significant issue for forest managers might be to further adapt forestry practices to management units based on soil physical properties, especially depth to the bedrock and rooting depth

Cycles biogéochimiques

Écosystème forestier

Effet du type de sol

Bilan hydrique

Flux minéraux

Hêtre

Biogeochemical cycles

Forest ecosystem

Soil type effect

Water balance

Mineral fluxes

Beech

577.309 4

Dinâmica biogeoquímica do carbono em ambientes fluviais de águas lênticas da Amazônia Oriental (FLONA de Caxiuanã, Pará) / Biogeochemical dynamic of carbon in slow flowing rivers of Eastern Amazonia (FLONA de Caxiuanã, Pará)

Daniel Marcos Bentes de Melo

03 February 2012

A dinâmica do carbono, nas fases orgânica, inorgânica e gasosa, foi analisada em um ponto na Baía de Caxiuanã e em três pontos no seu afluente Rio Curuá (porções superior, intermediária e inferior) um sistema fluvial de escoamento lento na Amazônia Oriental (Brasil estado do Pará) durante 31 campanhas, de janeiro de 2007 até dezembro de 2009. O objetivo foi avaliar mudanças intra e inter-anuais como função da hidrologia neste preservado rio de água preta. Medições em diferentes profundidades mostraram a formação de estratos físico-químicos, evidenciando o aspecto lêntico nos setores médio e baixo do rio Curuá, com eventos de concentrações extremamente baixas de oxigênio dissolvido durante o período de cheia, como conseqüência da entrada de insumos e da decomposição da matéria orgânica dos ecossistemas terrestres. Devido a esse aspecto, o DOC foi a forma dominante das fases orgânica e inorgânica do carbono, mostrando positiva e significativa correlação com o nível do rio, como resultado de um grande controle de entrada de insumos laterais. As formas particuladas orgânicas não mostraram as mesmas características em nenhum ponto, provavelmente em função da reduzida corrente de água que permite a rápida deposição desses materiais logo após sua entrada no sistema fluvial. As concentrações mais elevadas de CPOC e FPOC observadas na Baía de Caxiuanã parecem ser um sinal da presença de comunidade de fitoplâncton assim como da influência do vento, que ressuspende os sedimentos de fundo nesse ambiente. A concentração de dióxido de carbono exibiu altos valores comparados com a atmosfera, ratificando a bem conhecida característica heterotrófica dos rios amazônicos. Além disso, os baixos níveis de oxigênio observados induziram o consumo de matéria orgânica por bactérias anaeróbias, resultando em altas concentrações de metano, como observado no setor médio do rio Curuá. Assim como ocorreu com as formas particuladas orgânicas, os aspectos ecológicos e geológicos singulares da Baía de Caxiuanã distinguem seu habitat pelos baixos valores de dióxido de carbono quando comparados com a atmosfera, revelando um ambiente com diferente dinâmica biogeoquímica. / Dynamic of carbon, at organic, inorganic, and gas phases, was analyzed in one station at Caxiuanã Bay and three stations on its tributary Curuá River (upper, middle and lower sections) a slow flowing river system in Eastern Amazon (Brazil Pará State) during 31 campaigns, from January 2007 through December 2009. The objective was to evaluate intra and interannual changes as function of hydrology in this undisturbed blackwater river. Measures on different depths showed formation of physicochemical strata, evidencing the lentic aspect on middle and lower sections of Curuá River, with events of extremely low concentrations of dissolved oxygen during high water level, as a consequence of inputs and decomposition of organic matter from terrestrial ecosystems. Due to this aspect, DOC was the dominant form of organic and inorganic carbon phases, showed positive and significant correlation with river stage level for all sites, as result of a large control by lateral inputs. Particulate organic forms did not show the same characteristics in any station, probably as function of reduced water current which enable rapid deposition of these materials soon after their entrance on river system. The higher concentrations of CPOC and FPOC observed at Caxiuanã Bay seem to be a signal of presence of phytoplankton community as well as wind influence which resuspend bottom sediments in this environment. Carbon dioxide concentration on river exhibited higher values compared to atmosphere, ratifying the well-known heterotrophic characteristic of Amazon rivers. Furthermore, observed low levels of oxygen induced organic matter consumption by anaerobic bacteria, resulting in high concentrations of methane, as observed in the middle section of Curuá River. As occurred with particulate organic forms, the singular geologic and ecologic aspects of Caxiuanã Bay distinguish its habitat by low values of carbon dioxide when compared to atmosphere, revealing an environment with different biogeochemical dynamic.

Bacia hidrográfica

Carbono

Ciclos biogeoquímicos

Florestas nacionais

Rio Curuá

Biogeochemical Cycles

Carbon

Curua River

National Forests

Watershed

Avaliação biogeoquímica da contaminação do solo e água subterrânea na área do Parque Ecológico do Tietê - PET, Região Metropolitana de São Paulo - RMSP, SP

Rejane Gonçalves da Rocha

19 October 2011

O Parque Ecológico Tietê (PET), em Ermelino Matarazzo, a leste da região metropolitana de São Paulo, foi criado com o objetivo de preservar as várzeas do rio Tietê. Antes da criação do parque, a região foi palco de várias atividades antrópicas que levaram ao risco de contaminação do solo e águas subterrâneas. A recuperação iniciou-se com o plantio de espécies nativas, o que também promoveu a recolonização da fauna, composta essencialmente de espécies frugívoras. Dentre as espécies de plantas presentes no parque, a palmeira Jerivá (Syagrus romanzoffiana) é importante por sua ampla distribuição geográfica nos ecossistemas brasileiros. O presente estudo teve como objetivo compreender, através de coeficientes de prospecção biogeoquímicos, a interação entre os compartimentos solo, água subterrânea e planta, este último representado pela palmeira Jerivá. Os resultados indicaram que o Jerivá apresentou diferentes coeficientes de absorção entre suas folhas e pecíolos. O estudo também demonstrou que fatores como sazonalidade dentro de um período mínimo de um ano, idade e espécies de plantas devem ser levados em conta em abordagens biogeoquímicas. / The Tietê Ecological Park (PET) in Ermelino Matarazzo, east of the metropolitan area of São Paulo city, was created with the purpose of preserving the floodplains of the Tietê River. Prior to the establishment of the park, the region was scene of several anthropogenic activities which led to high risk of soil and groundwater contamination. Subsequent recovery of the degraded area was aimed through the planting of native plant species, which also promoted the recolonization of the area by the fauna, essentially composed of frugivorous species. Among the plant species introduced in the park, the Jerivá palm tree (Syagrus romanzoffiana) is important for its wide geographical distribution in Brazilian ecosystems. The current study aimed to understand, through biogeochemical prospecting coefficients, the interaction between soil compartments, underground water and plant, the latter represented by the Jerivá palm tree. The results indicated that Jerivá presented different absorption coefficients among its leaves and petioles. The study also demonstrated that factors like seasonality within a minimum period of one year, age and plant species must be taken into account in biogeochemical approaches.

Áreas degradadas

Parque urbano

Syagrus romanzoffiana

Biogeochemical prospecting coefficients

Degraded areas

soil and groundwater contamination

Syagrus romanzoffiana

Urban park

Modélisation biogéochimique du système ”Irrigation-sol-plante-nappe” : Application à la durabilité du système de culture du foin de Crau / Biogeochemical modeling of the system "Irrigation-soil-plant-slick" : Application to the sustainability of the Crau hay system

Mohammed, Gihan

07 March 2017

Une nouvelle méthodologie fondée sur l’interfaçage de la géochimie et de la biologie a été utilisée pour étudier la durabilité d’un système d’agriculture irriguée face aux changements globaux (climat et urbanisation). L’étude de sa durabilité nécessite une vision dynamique spatio-temporelle de l’évolution d’un agrosystème irrigué, ici le système « irrigation – prairie (plante) – sol – nappe ». Pour cela, deux démarches sont utilisées : l’étude de terrain et la modélisation. L’étude de terrain comprend des suivis temporels et spatiaux de la qualité des eaux de surface, de la nappe phréatique et de la qualité du foin des prairies. La modélisation consiste en un modèle biogéochimique prenant en compte l’ensemble des compartiments réactionnels du système. Le fil directeur est constitué par les mécanismes d’acquisition de la composition chimique de l’eau lors de son transfert dans le sol depuis eau d’irrigation jusqu’à l’eau de nappe. Ces mécanismes sont étudiés du double point de vue de leurs bilans géochimiques et des réactions sol / solution. L’acquisition de données porte ainsi sur : (1) la composition chimique des eaux d’irrigation et des eaux souterraines de la nappe ; (2) la minéralogie des sols ; (3) la nature des engrais apporté ; (4) la quantité des éléments chimiques prélevés et exportés par les plantes. Le modèle biogéochimique consiste à interfacer le modèle de culture STICS et le modèle de géochimie PHREEQC. Ce modèle est capable de rendre compte de l’évolution des eaux lors de leur parcours dans le sol et de mettre en évidence les processus majeurs qui déterminent la qualité de l’eau ; en sortie, il permet d’établir des indicateurs géochimiques pertinents pour la gestion du système. Cette méthode est appliquée aux prairies irriguées en la Crau, au Sud de France. Le système d’irrigation gravitaire par les eaux de la Durance depuis le 16e siècle sur la Crau a construit un système agricole durable en amenant des alluvions sur les terres irriguées, sur lequel poussent les prairies (le foin de Crau (AOP)). De plus cette irrigation participe à plus de 70% au renouvellement des eaux de la nappe phréatique. L’analyse des données sur une longue durée (1960-2013), l’acquisition de données récentes et la modélisation montrent l’originalité et la durabilité de cet agrosystème irrigué et sa résilience face à une augmentation de température de 2°C, tant en ce qui concerne les rendements que la qualité du foin. Cependant dans la perspective des changements globaux, les prévisions tablent sur une disponibilité en eau pour l’irrigation en diminution, de plus des changements d’occupation du sol (10% de la surface totale), avec une réduction des prairies irriguées. Ceci risque de remettre en cause la durabilité de l’agrosystème irrigué et partant l’approvisionnement en eau à partir de la nappe de toute l’économie locale (300 000 habitants, les industries lourdes du site de Fos-sur-Mer). / A new methodology based on geochemistry and biology interfacing to study the sustainability of an irrigated agriculture system in the face of global changes (climate and urban sprawl). It requires construction of a spatio-temporal view of the ”irrigation - meadow (plant) - soil - groundwater” system evolution. Thereby two approaches are used : the field study and the modeling. The field study includes temporal and spatial survey of waters quality, plant quality and used fertilizers. The modeling consists of a biogeochemical model taking into account all the factors reaction of the system. The main theme is the mechanisms of acquiring the chemical composition of water during its transfer the soil horizon from irrigation water to groundwater. These mechanisms are studied from the double point of view of their geochemical balances and soil / solution reactions. The data acquisition thus relates to : (1) the chemical composition of irrigation water and groundwater ; (2) the soil mineralogy ; (3) the nature of the provided fertilizer ; (4) quantity of chemical elements uptaken by plants. The biogeochemical model consists in interfacing the crop model (STICS) and the geochemical model (PHREEQC). This model is able to perform the chemical evolution of waters during their pathway in the soil and to highlight the major processes that determine the water quality ; in output, it makes it possible to establish geochemical indicators relevant to the system management. The Crau is chosen as a demo area, South France, its grassland production is based on surface irrigation via channels withdrawn from the Durance River. Irrigation water is rich in minerals and trace elements thanks to alluvium brought, on which produce high quality hay that is regulated under appellation control since 1997. Additionally, this irrigation recharge the aquifer by 70% But it is threatened by global changes, which ultimately risks to compromising the sustainability of the irrigated grassland system. Data analysis over a long term (1960-2013), the acquisition of recent data and modeling show the originality and durability of this irrigated agrosystem and Its resilience to an increase in temperature by about 2°C, both in terms of yields and hay quality. However, according to future scenarios, declining of irrigation water is forecasted, and changes in land use by 10% of the total area, with a reduction in irrigated grassland areas. This may jeopardize the sustainability of the the irrigated agrosystem and thus the water supply for local use (300 000 inhabitants, the heavy industries of the Fos-sur-Mer site).

Irrigation

Prairies

Changement globaux

Modélisation biogéochimique

Analyse série temporelle

Bilan minéraux

Irrigation

Grasslands

Global change

Biogeochemical modeling

Long-term analyses

Mineral balance

Využití mikrobiálních komunit jako markeru podmínek v podzemních biotopech / Use of microbial community structure as a marker of conditions in underground biotops

Burkartová, Kateřina

January 2017

The amount of data obtained by barcoding of prokaryotic 16S rDNA from natural habitats is increasing exponentially. Thus, methods enabling us to extract useful information from these data are of increasing importance. In this thesis microbial communities from water, sludge and drilling dust were analyzed by 16S rDNA sequencing in three geologically well described sedimentary aquifers in Bohemian Massif. The main goal of this research was to establish how different analytical approaches can be useful in interpretation of groundwater biogeochemical processes. Three approaches were used: First, taxonomy and metabolic traits of the most abundant microorganisms were assessed. Second, ordination methods showing metabolic and taxonomic variability between communities were used. Last the analysis of phylogenetic dissimilarity using UniFrac metrics was performed. When analyzing individual localities separately, the shift in microbial community composition corresponds with the change of environmental conditions. The unconstrained ordination method based on the variability in metabolic traits indicated, that sludge samples are more informative than water samples when asking which electron donor is used in microbial communities. On the other hand, unconstrained ordination methods were useless when the...

Variabilité spatiale et temporelle des cycles biogéochimiques à l'interface eau-sédiment dans la lagune de Términos, Mexique / Spatial and temporal variability of biogeochemical cycles at the sediment-water in Terminos lagoon, Mexico

Origel Moreno, Montserrat

09 December 2015

L’objectif de cette thèse concerne la quantification des flux benthos-pélagiques dans une lagune soumise à un régime climatique tropical rythmé de périodes humides et périodes sèches. La lagune de Terminos, située au sud du golfe du Mexique est le plus vaste écosystème laguno-estuarien du Mexique (2000 km2). Du fait de sa faible profondeur (3.5 m en moyenne), les processus benthiques sont sensés participer activement à l’ensemble du cycle biogéochimique de cet Ecosystème. Les mesures de flux benthiques ont eu lieu au cours de un réseau de 13 stations pendant une saison sèche (mars 2009 et 2010) et une saison humide (octobre 2009 et novembre 2010). Quatre stations ont fait l’objet de mesures plus fréquentes du 2008 au 2010. Des incubations ex-situ de carottes de sédiment prélevées ont permis de mesurer la variabilité spatio-temporelle des taux de respiration benthique (SOD) et des flux de sels nutritifs. Les SOD sont significativement différents entre les périodes sèches et humides (1327±161 et 2248±359 µmol m-2 h-1 respectivement). Les flux de silicates sont significativement plus importants pendant la saison des pluies (89.4±15.9 µmol m-2 h-1) que pendant la saison sèche (46.5±11.4 µmol m-2 h-1). Les flux de phosphates, faibles tout au long des périodes étudiées, n’ont pas montré de différence significative. Les flux d’azote dissous (DIN) sont de même intensité mais de sens opposé (2.9±18.8 µmol m-2 h-1 et 24.3±7.3 µmol m-2 h-1). Ces flux caractérisés par un fort signal saisonnier sont fortement corrélés avec les caractéristiques biogéochimiques des sédiments (Corg, N et chloropigments) et contribuent significativement au bilan du carbone et des éléments associés. / The goal of this study concerns the quantification of sediment-water fluxes in a tropical lagoon under climatic forcing regulated by successive dry and wet periods. Terminos lagoon on the South coast of Gulf of Mexico (Campeche sound) is a shallow (3.5 m) but vast estuarine system (2000 km2) where the sediments are supposed to contribute largely to the overall biogeochemical cycling. Benthic flux measurements were performed twice over a network of 13 stations during dry (March 2009 and 2010) and wet periods (October 2009 and November 2010). A selection of 4 stations from this network were visited more frequently between 2008 and 2010. Sediment Oxygen Demand (SOD) and nutrient fluxes were measured through ex-situ incubations of sediment cores sampled manually. SOD were significantly different between both dry and wet seasons (1327±161 and 2248±359 µmol m-2 h-1 respectively). Silicates fluxes were significantly more intense during the wet season (89.4±15.9 µmol m-2 h-1) than during the dry one (46.5±11.4 µmol m-2 h-1). Phosphate fluxes, low during all periods did not show a temporal trend. Finally DIN fluxes showed a net uptake during the wet season (2.9±18.8 µmol m-2 h-1) and conversely an efflux during the dry season (24.3±7.3 µmol m-2 h-1). These fluxes depicted a pronounced seasonal signal, showed a significant correlation to sediment characteristics (Corg, N and chloropigments) and finally contributed to the overall carbon and nutrient budget of the lagoon.

Cycles biogéochimiques

Écosystème estuarien

Matière organique

Respiration benthique

Changement climatique

Mineralisation

Biogeochemical cycles

Estuarine ecosystems

Organic matter

Benthic respiration

Climate change

Mineralization

550

Mécanismes de solubilisation et transfert de matières organiques dissoutes à l'échelle d'un bassin versant agricole : apport de l'étude de la composition moléculaire / Solubilisation and transfer mechanisms of dissolved organic matter at the agricultural headwater catchment scale : contribution of the molecular analysis

Denis, Marie

27 October 2017

Les matières organiques dissoutes (MOD), en tant que sources de nutriments ou potentiels vecteurs de pollution, sont impliquées dans de nombreuses problématiques environnementales. Bien qu'elles fassent l'objet de nombreuses études depuis plusieurs décennies, les mécanismes gouvernant leur solubilisation et leur transfert depuis les sols vers les systèmes aquatiques demeurent sujets à discussion. En s'appuyant sur l'étude de la composition moléculaire des MOD par hydrolyse et méthylation assistée par température et couplée à la chromatographie en phase gazeuse et à la spectrométrie de masse (HMT-CPG-SM), cette thèse a pour objectif d'apporter une meilleure compréhension de leurs mécanismes de solubilisation et de transfert à l'échelle d'un bassin versant agricole. Ce travail s'est appuyé sur le bassin versant expérimental de Kervidy-Naizin (Morbihan, Observatoire de Recherche en Environnement AgrHys) afin d'observer les processus mis en jeux à deux échelles temporelles différentes. A l'échelle de la crue, ce travail a permis de préciser l'impact des conditions hydrologiques spécifiques sur la dynamique des MOD. A l'échelle annuelle, l'utilisation conjointe de la signature isotopique du carbone (δ13C) et de la composition moléculaire des MOD a permis de préciser les mécanismes de transfert de MOD impliqués à l'échelle du versant. L'utilisation de la HMT-CPG-SM s'est avéré un outil adéquat pour l'étude de la dynamique des MOD. L'ensemble des résultats ainsi obtenus ont permis de souligner l'importance des conditions hydrologiques et en particulier de la dynamique de nappe dans les processus de solubilisation et de transfert des MOD. / Dissolved organic matter (DOM), as sources of nutrient or pollutant dissemination pathway are implied in numerous environmental issues. Although DOM have been the subject of numerous studies for several decades, the mechanisms implied for their solubilization and their transport from soils to aquatic systems are still a matter of discussion. Based on DOM molecular composition determined using thermally assisted hydrolysis and methylation –gas chromatography – mass spectrometry (THM-GC-MS), this thesis aims to provide a better understanding of their solubilization and transfer mechanisms at the scale of an agricultural headwater catchment. This work was conducted on the experimental headwater catchment of Kervidy-Naizin (France, Environmental Research Observatory AgrHys) in order to determine the processes implied at two temporal scales. At the scale of a rain event, this work has clarified the impact of hydrological conditions on the DOM dynamics. At annual scale, the use of carbon isotope signature (δ13C) and DOM molecular composition allowed to clarify the DOM transfer mechanisms at the slope scale. The use of THM-GC-MS appears to be a suitable tool for the study of DOM dynamics. The results thus obtained allowed to highlight the role of hydrological conditions and in particular the water-table level in the solubilization and transfer of DOM.

Matière organique dissoute

Cycle biogéochimique du carbone

Analyses moléculaires

Isotopie du carbone

Crues

Bassin versant

Dissolved organic matter

Carbon biogeochemical cycle

Molecular analysis

Carbon isotopes

Rain events

Headwater catchment

Cycles biogéochimiques (Si, C, N, P) en lien avec la dynamique nutritionnelle du phytoplancton dans la région naturellement fertilisée des Kerguelen / Biogeochemical cycles (Si, C, N, P) in relation to nutritional dynamics of phytoplankton in the iron-fertilized region of Kerguelen

Lasbleiz, Marine

15 December 2014

Les cycles biogéochimiques du carbone et des éléments biogènes (Si, N, P) ont été étudiés en lien avec la dynamique nutritionnelle du phytoplancton dans le système naturellement fertilisé des Kerguelen. Cette étude s'inscrit dans le programme KEOPS2, qui a ciblé le nord-est du plateau des Kerguelen au début de la saison productive. La comparaison avec une zone HNLC limitée en fer a confirmé certaines des précédentes observations réalisées au cours des expériences de fertilisations artificielles et naturelles : le fer stimule clairement la croissance du phytoplancton et plus particulièrement celle des diatomées. Les zones naturellement fertilisées se sont en effet caractérisées par des biomasses en chlorophylle a et en silice biogénique 3-10 fois supérieures à la zone non-fertilisée et, par de fortes vitesses de production de silice biogénique atteignant des valeurs rarement observées dans l'océan Austral. La zone HNLC s'est caractérisée quant à elle par une population nanoplanctonique principalement composée de nanoflagellés autotrophes non siliceux. Ces travaux soulignent l'importance d'étudier la composition spécifique des populations de diatomées pour comprendre leurs implications dans les cycles du C et du Si. Nos observations ont montré que les caractéristiques physiologiques des diatomées conditionnent directement l'export de matière en profondeur dans la région des Kerguelen. Cette idée a notamment été illustrée par l'étude de l'évolution saisonnière du bloom au sud-est du plateau. / Biogeochemical cycles of carbon, silicon, nitrogen and phosphorus were studied in relation to the nutritional dynamics of phytoplankton in the naturally iron-fertilized region of Kerguelen, in the Southern Ocean. This study was conducted in the framework of the KEOPS 2 program which took place in the northeastern part of the Kerguelen Plateau in early austral spring (October-November 2011). The comparison between this iron-fertilized region and an iron-limited HNLC (High Nutrient Low Chlorophyll) area confirmed some previous observations from artificial and natural fertilization experiments: iron availability clearly stimulates phytoplankton growth and especially diatom growth. Iron-fertilized regions were characterized by 3-10 fold higher chlorophyll a and biogenic silica biomasses than the iron-limited area, as well as higher biogenic silica production rates reaching values rarely observed in the Southern Ocean. The HNLC area was characterized by a nanoplanktonic assemblage mainly composed of non-siliceous autotrophic nanoflagellates. Our results highlight the importance of studying the specific composition of diatom assemblages to better understand their impact on the C and Si biogeochemical cycles. Our observations showed that physiological traits of diatoms directly drove matter export to depth in the Kerguelen region. This idea was illustrated through the seasonal evolution of the south-eastern bloom by combining our data with KEOPS 1 data. In this region, a shift in the diatom assemblage was observed in parallel to an evolution of the vertical flux of matter, and of uptake and particulate matter ratios Si:C:N.

Cycles biogéochimiques

Disponibilité en fer

Structure des communautés planctoniques

Diatomées

Dynamique nutritionnelle

Hnlc

Biogeochemical cycles

Iron availability

Structure of planctonic communities

Diatoms

Nutritional dynamics

Hnlc

550

Relações entre fluxos de óxido nitroso (N2O) com umidade e genes associados à desnitrificação em floresta e sistemas agrícolas / Relations between nitrous oxide (N2O) fluxes with moisture and genes associated with denitrification in forest and agricultural systems

Marcela Arnaldo

18 September 2014

O óxido nitroso (N2O) é um importante gás de efeito estufa (GEE) e, nos ecossistemas terrestres, é produzido principalmente pelo processo de desnitrificação. Esse ocorre em condições anaeróbias e, portanto, é fortemente estimulado pelo aumento do teor de umidade do solo. Entretanto, solos sob diferentes usos podem exibir taxas de emissão de N2O distintas, mesmo quando apresentam teores de umidade equivalentes. Ainda não está claro se isso se deve somente ao fato de os mesmos diferirem quanto a atributos físicos e químicos capazes de afetar a atividade dos organismos desnitrificantes ou se também se deve à diferenças com relação ao tamanho de suas populações. O presente trabalho foi desenvolvido com o objetivo de compreender as relações entre os fluxos de N2O, a umidade e a abundância de genes bacterianos envolvidos no processo de desnitrificação (nirK, norB e nosZ) em solos de floresta, pastagem e cultivo de cana-de-açúcar, utilizando um experimento de microcosmos. Amostras de solo foram coletadas na fazenda Capuava, situada no município de Piracicaba, SP. Os microcosmos estabelecidos a partir das mesmas foram mantidos com diferentes teores de umidade (original e ajustados para atingir 60% e 90% da capacidade de campo) e incubados a 30 °C por 30 dias. Ao longo do período de incubação, os fluxos de N2O a partir desses solos foram analisados por cromatografia gasosa. Amostras coletadas do interior dos microcosmos, antes e depois da aplicação dos tratamentos, foram comparadas quanto à estrutura de suas comunidades bacterianas, utilizando a técnica de T-RFLP, e quanto à abundância dos genes 16S rRNA, nirK, norB e nosZ, através da técnica de qPCR. Somente os solos que tiveram sua umidade ajustada para 90% da capacidade de campo exibiram incrementos significativos na produção de N2O. Em tais amostras, também foi verificada a alteração da estrutura das comunidades bacterianas e do número de cópias dos genes norB e nosZ. Apenas este último, no entanto, apresentou uma correlação positiva com a umidade do solo. A abundância dos genes avaliados não apresentou correlações significativas com as taxas de emissão do GEE. Por outro lado, as emissões cumulativas de N2O se correlacionaram positivamente com as quantidades de genes desnitrificantes presentes inicialmente nas amostras de solo. Estes genes se mostraram mais abundantes nas amostras de pastagem e floresta, as quais apresentavam maiores teores de matéria orgânica, carbono, nitrogênio, nitrato e argila do que aquelas provenientes da área cultivada com cana-de-açúcar. Tais resultados demonstram que o conteúdo de água do solo afeta a taxa de emissão de N2O, mas que isso não se deve a alterações na abundância das bactérias envolvidas no processo, como as que carregam os genes nirK, norB e nosZ. Aparentemente, no entanto, quantidade de GEE que o solo é capaz de produzir está relacionada ao tamanho das populações desses organismos desnitrificantes. / Nitrous oxide (N2O) is an important greenhouse gas (GHG) and, in terrestrial ecosystems, it is mainly produced by denitrification. This process occurs under anaerobic conditions and, therefore, is strongly stimulated by the increase of the soil moisture content. However, soils under different uses may exhibit distinct N2O emission rates, even when they have the same moisture content. It is still not clear whether this is due solely to the fact that they differ in relation to physical and chemical properties that affect the activity of denitrifying organisms or whether this is also due to differences in the size of their populations. The aim of this work was to evaluate the relations between N2O fluxes, moisture and abundance of bacterial genes involved in denitrification process (nirK, norB e nosZ) in soil samples from forest, pasture and sugarcane field, through a microcosm experiment. These samples were collected at Fazenda Capuava, located in Piracicaba, SP. Microcosms established from them were maintained with different moisture contents (original and adjusted to achieve 60% and 90% of field capacity) and incubated at 30 °C for 30 days. During the incubation period, the N2O fluxes from soils were analyzed by gas chromatography. Soil samples from microcosms, collected before and after application of the treatments, were compared regarding the structure of their bacterial communities, by using T-RFLP technique, and the abundance of 16S rRNA, nirK, norB and nosZ genes, through qPCR technique. Only samples that had their moisture content adjusted to 90% of field capacity exhibited significant increases in N2O production. In these samples, changes in the structure of bacterial communities and in the copy numbers of norB and nosZ genes were also detected. Only the latter gene, however, showed a positive correlation with soil moisture. The abundance of the quantified genes showed no significant correlations with the gas emission rates. On the other hand, the cumulative N2O emissions were positively correlated with the amounts of denitrifying genes initially present in the samples. These genes were more abundant in pasture and forest soils, which had higher levels of organic matter, carbon, nitrogen, nitrate and clay than those from sugarcane cropping area. These results indicate that soil water content affects the N2O emission rates. However it is not due to changes in the abundance of bacteria involved in the process, such as those that bear the nirK, norB and nosZ genes. Apparently, it is the size of these organisms\' populations that determines the amount of GHG that the soil is able to produce.

Bactérias desnitrificantes

Ciclo biogeoquímico do nitrogênio

PCR em tempo real

T-RFLP

Biogeochemical nitrogen cycle

Denitrifying bactéria

Real-time PCR

T-RFLP