The fluvial architecture of buried floodplain sediments of the Weiße Elster River (Germany) revealed by a novel method combination of drill cores with two-dimensional and spatially resolved geophysical measurements

von Suchodoletz, Hans, Pohle, Marco, Khosravichenar, Azra, Ulrich, Mathias, Hein, Michael, Tinapp, Christian, Schultz, Jonathan, Ballasus, Helen, Veit, Ulrich, Ettel, Peter, Werther, Lukas, Zielhofer, Christoph, Werban, Ulrike

28 August 2023

The complex and non-linear fluvial river dynamics are characterized by repeated periods of fluvial erosion and re-deposition in different parts of the floodplain. Understanding the fluvial architecture (i.e. the three-dimensional arrangement and genetic interconnectedness of different sediment types) is therefore fundamental to obtain well-based information about controlling factors. However, investigating the fluvial architecture in buried floodplain deposits without natural exposures is challenging. We studied the fluvial architecture of the middle Weiße Elster floodplain in Central Germany, an extraordinary long-standing archive of Holocene flooding and landscape changes in sensitive loess-covered Central European landscapes. We applied a novel systematic approach by coupling two-dimensional transects of electrical resistivity tomography (ERT) measurements and closely spaced core drillings with spatially resolved measurements of electromagnetic induction (EMI) of larger floodplain areas at three study sites. This allowed for (i) time and cost-efficient core drillings based on preceding ERT measurements and (ii) spatially scaling up the main elements of the fluvial architecture, such as the distribution of thick silt-clay overbank deposits and paleochannel patterns from the floodplain transects to larger surrounding areas. We found that fine-grained sand and silt-clay overbank deposits overlying basal gravels were deposited during several periods of intensive flooding. Those were separated from each other by periods of reduced flooding, allowing soil formation. However, the overbank deposits were severely laterally eroded before and during each sedimentation period. This was probably linked with pronounced meandering or even braiding of the river. Our preliminary chronological classification suggests that first fine-grained sedimentation must have occurred during the Early to Middle Holocene, and the last phase of lateral erosion and sedimentation during the Little Ice Age. Our study demonstrates the high archive potential of the buried fluvial sediments of the middle Weiße Elster floodplain and provides a promising time and cost-effective approach for future studies of buried floodplain sediments.

info:eu-repo/classification/ddc/910

ddc:910

Prediction of Travel Time and Development of Flood Inundation Maps for Flood Warning System Including Ice Jam Scenario. A Case Study of the Grand River, Ohio

Lamichhane, Niraj

23 May 2016

No description available.

Civil Engineering

Hydrologic Sciences

Water Resource Management

Sizing Stream Setback Using GIS Tools for Stream Protection

Sheng, Ming

29 August 2012

No description available.

Environmental Management

Environmental Science

Geographic Information Science

Water Resource Management

Stream Setback

GIS

Floodplain

Streamway

Riparian Buffer

Watershed Management

Stream Stability

Recruitment ecology of fish in floodplain rivers of the southern Murray-Darling Basin, Australia

King, Alison Jane, 1974-

January 2002

Abstract not available

The roles of seed banks and soil moisture in recruitment of semi-arid floodplain plants: the River Murray, Australia.

Jensen, Anne Elizabeth

January 2008

The decline of floodplain vegetation along the Lower River Murray, South Australia, has evoked recommendations for ‘environmental flows’ to restore and maintain the health of the ecosystem. To assist managers to maximize benefits from environmental flows, this thesis considers the significance of water for germination and recruitment in key floodplain plant species. Three dominant species are considered, including two trees, river red gum (Eucalyptus camaldulensis) and black box (E. largiflorens), and an understorey shrub, tangled lignum (Muehlenbeckia florulenta). The soil seed bank was dominated by terrestrial annual native plants. Among 1400 seedlings, a single river red gum was found, and no black box or lignum, suggesting that these species do not contribute to the persistent soil seed bank and rely instead on aerial seed banks (serotiny). Sampling of the soil seed bank was continued to determine when seed fall might coincide with appropriate soil moisture conditions. Responses of the soil seed bank to varied water regimes were compared to determine requirements for seedling survival. The results indicated that species richness, rapidity of response and survival time were all promoted by sustained soil moisture. Stands of eucalypts in various states of health (from very stressed to very healthy) were monitored to identify seasonal patterns in bud crops, flowering, fresh leaves and volumes of seed released from the aerial seed bank. Distinct seasonal phenological patterns were apparent, and suggested alternating flowering among individual trees (biennial for red gum, bi-annual for black box), producing an annual peak in summer. Peak seed rain occurred in summer (December–March) in healthy trees for both red gum and black box, with light seed rain continuing throughout the year. Seed fall from stressed trees was much reduced. Stressed trees responded after a second watering event, with much more varied and extended annual seed fall patterns. Lignum showed a spring peak in flowering and seed production. There was a prolific response of flowering and seeding to rainfall, but few seedlings survived. Vigorous vegetative growth occurred in existing plants in response to rainfall and watering but no new cloned plants were found during the study. An investigation of chromosomes as a potential tool to appraise the balance between sexual and asexual reproduction in lignum proved inconclusive, although a previous report of octoploidy in lignum was confirmed. Seeds from all three species and lignum cuttings were tested for their responses to varied watering regimes, based on combinations of simulated rain and flood conditions. The optimal soil moisture for continued growth and survival in all seeds and cuttings was 10 25%, with moisture values <10% causing wilting and death. The results also suggested that red gum and black box seeds which germinate in water under flooded conditions need to be stranded onto moist soil at the water’s edge within 10 days, for the seedling to continue to grow. It was also concluded that germination on rain-moistened soil is a key supplementary mechanism for recruitment, particularly between irregular flood events. For greatest benefit, the timing of environmental flows should complement any seasonal rainfall and irregular flooding that may occur. Extension of suitable soil moisture conditions (10-25%) for as long as possible after >5 mm rainfall, or after over-bank flows, would increase chances for survival of seedlings. December is the most likely month for maximal benefit from watering in the Lower Murray Valley, for germination and recruitment, based on regional rainfall and flooding patterns. / http://proxy.library.adelaide.edu.au/login?url= http://library.adelaide.edu.au/cgi-bin/Pwebrecon.cgi?BBID=1344528 / Thesis (Ph.D.) -- University of Adelaide, School of Earth and Environmental Sciences, 2008

The application of sediment source fingerprinting techniques to river floodplain cores, to examine recent changes in sediment sources in selected UK river basins

Haley, Stephen Mark

January 2010

In recent years there has been an increasing awareness of the detrimental influence of diffuse sources of pollution on aquatic systems and of the integral role played by sediment in the mobilisation and transport of pollutants. The recognition of the environmental, societal and economic importance of the ecological health of aquatic environments has led to a change in emphasis regarding agricultural and environmental policy. To implement successful delivery of emerging policy requirements, there is a current need to have an enhanced understanding of the relationship between different forms of land use and sources of diffuse pollution, particularly sources of fine sediment. To understand the potential impacts of future land use changes, including environmental conservation measures on sources of sediment, it is useful to consider them within a longer-term context. This study has successfully applied the sediment source fingerprinting technique to floodplain overbank sediment cores in a retrospective study of six diverse UK river catchments with identified sediment problems. The varying estimates of relative sediment contributions from differing sources have been compared to known land use change in the study catchments over concurrent time periods, to explore any associations which might be apparent. Over the last 40 years, the increased cultivation of high erosion risk crops, such as those which are harvested late in the season (e.g. maize) and those which are sown in the autumn (e.g. winter wheat), has contributed disproportionately to the total sediment load relative to the area of land occupied by such cultivation. Increased stocking densities have resulted in increased relative sediment contributions from grassland sources, particularly intensively managed temporary grassland, but can have an even greater impact on sediment contributions derived from channel bank sources. The installation and maintenance of drainage for agriculture or for flood risk management has resulted in increased relative sediment loads from channel bank and associated sub-surface sources. Through the further development of such research, the efficacy of mitigation measures can be tested against evidence-based historic trends and those management approaches which provide identifiable improvements can be developed as best practice options for future land management targeted at reducing the negative impacts of excessive sediment ingress to river systems. The design of the source fingerprinting methodology used in this work was based on an established successful approach and this was developed further through the incorporation of a number of refinements designed to improve the robustness of the technique and expedite its implementation.

551.442

Interação, sentido e visibilidade no futebol de várzea em São Paulo: sujeitos, comunidades, marcas e uma cidade em jogo / Interaction, Sense and Visibility in Floodplain Soccer Practice in São Paulo City: subjects, communities, brands and a city at stake

Pereira, Tatiana Rovina Castro

05 October 2012

Made available in DSpace on 2016-04-26T18:12:10Z (GMT). No. of bitstreams: 1 Tatiana Rovina Castro Pereira.pdf: 81071198 bytes, checksum: 689cb6a2ac9a3f6748d1d1acb583468a (MD5) Previous issue date: 2012-10-05 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior / This dissertation aims at studying the systems of interaction, sense and visibility that constitute the floodplain soccer practice in São Paulo city. In order to do so, citizens, communities and the city are understood as texts (in the semiotic comprehension of the term) as well as subjects involved in the interactive dynamics of the narrative significant that this type of soccer practice constitutes, bringing meaning in itself. It is intended to comprehend the construction of new meanings of this type of sports practice in practical life, which is done by several citizens in São Paulo city, especially in suburbia areas. Taking this type of soccer practice as the object of this study, the following question is proposed: how do subjects and communities of São Paulo city interact, build sense, show and see themselves through this type of soccer practice? Which interactions, senses and visibilities are constituted? The hypothesis is that this practice presents for the subject, the pairs (other subjects and communities) and the city beyond (and within) the floodplain identities and values which move these citizens in the relation with the city. The study is based theoretically on the Discursive Semiotics of A. J. Greimas and followers (with special focus on the works of D.L.P. Barros e J.L. Fiorin), the Sociosemiotics of E. Landowski and the Plastic Semiotic approach of A.C. de Oliveira, based on J-M. Floch. The corpus comprehends a historical research of soccer (and the several types of soccer which were constituted in São Paulo city, including the floodplain soccer practice) and the experience with the object in action and relation from 2010 to 2012, in the following competitions: Kaiser Cup of Amateur Soccer and Peace Cup Dreher, as well as in the Palmeirinha do Paraisópolis floodplain soccer team. The conclusion is that these subjects express, through the floodplain soccer practice, the values that rule their existence, in their life narratives. By re-semanticizing the sport which is Brazilians favorite , these players, supporters and community dwellers interact, feel and constitute a living shared among equals, enjoying the same way of life in the city. The new media destinators capitalized in the floodplain soccer practice in São Paulo city, such as Kaiser and Dreher, produce changes in the dynamics of sense production / O presente trabalho estuda os regimes de interação, sentido e visibilidade que fazem-ser e ver a prática do futebol de várzea na cidade de São Paulo. Para tal, se consideram os cidadãos, as comunidades e a metrópole como textos (na acepção semiótica do termo) e como sujeitos imbricados nas dinâmicas interativas da significante narrativa que é a modalidade varzeana, pela qual se fazem apreender, além da visão, pelo conjunto dos sentidos. Pretende-se compreender as ressemantizações de uma prática esportiva em específica prática de vida, que é o jogar futebol de várzea, efetuado por milhares de paulistanos, especialmente nas periferias. Tomando-se como objeto esta forma do esporte, busca-se responder: como sujeitos e comunidades de São Paulo interagem, fazem sentido, se fazem-ver e são feitos-ver pelo futebol de várzea? E quais as interações, sentidos e visibilidades que se fazem? A hipótese é a de que essa prática presentifica para si mesmo, seus pares (outros sujeitos e comunidades) e a cidade além (e aquém) da várzea identidades e valores que movem esses paulistanos na relação com a metrópole. O estudo adota como referencial teórico a Semiótica Discursiva desenvolvida por A.J. Greimas e seguidores (especialmente as colaborações de D.L.P. de Barros e J.L. Fiorin), a Sociossemiótica de E. Landowski e a abordagem da Semiótica Plástica realizada por A.C. de Oliveira, na esteira de J-M. Floch. O corpus compreende a pesquisa histórica do futebol (e dos diversos futebois que foram feitos-ser em São Paulo, incluindo a modalidade varzeana) e a vivência do objeto, em ato e em relação, nos anos de 2010 a 2012, pelas competições Copa Kaiser de Futebol Amador, Copa da Paz Dreher e ainda pelo time Palmeirinha do Paraisópolis. A conclusão é que tais paulistanos, nas suas narrativas de vida, enunciam pelo futebol de várzea os valores que regem sua existência. Ressemantizando o esporte que é paixão do brasileiro , esses jogadores, torcedores e moradores interagem, sentem e (se) fazem-ver um viver partilhado entre iguais, desfrutando um mesmo modo de vida na capital paulista. Os novos destinadores midiáticos capitalizados do futebol de várzea de São Paulo, como Kaiser e Dreher, fazem-sentir mudanças nas dinâmicas de geração de sentidos

Futebol de várzea em São Paulo

Periferia

Palmeirinha do Paraisópolis

Sociossemiótica

Regimes de sentido

Interação e visibilidade

Suburbia

Sociosemiotics

Systems of sense

Interaction and visibility

Hydrodynamic and Water Quality Modeling of the Chehalis River Using CE-QUAL-W2

Van Glubt, Sarah

15 February 2017

The Chehalis River Basin is located in the southwest region of Washington State, originating in the Olympic Mountains and flowing to Grays Harbor and the Pacific Ocean. The Chehalis River is over 125 miles, exists within five counties, and flows through agricultural, residential, industrial, and forest land areas. Four major rivers discharge to the Chehalis River, as well as many smaller creeks, five wastewater treatment plants, and groundwater flows. Flooding is a major problem in the relatively flat areas surrounding the cities of Chehalis and Centralia, with severe consequences for property, safety and transportation. As a result, construction of a flood-control dam in the upper basin has been proposed. One major concern of constructing a dam is the potentially severe impacts to fish health and habitat. The Chehalis River has routinely violated water quality standards for primarily temperature and dissolved oxygen, and has had multiple water quality and Total Maximum Daily Load studies beginning in 1990. CE-QUAL-W2, a two-dimensional (longitudinal and vertical) hydrodynamic and water quality model, was used to simulate the Chehalis River, including free flowing river stretches and stratified (in summer) lake-like stretches. The goals of this research were to assess the flood retention structure's impacts to water quality, as well as river responses to potential climate change scenarios. In order to use the model to achieve these goals, calibration to field data for flow, temperature, and water quality constituents was performed. This involved developing meteorological data, riparian shading data, and flow, temperature, water quality records for all tributaries during the calibration period of January 1, 2013 to December 31, 2014. System cross-sectional geometry data were also required for the model grid. Because of the short travel time in the river, the model was sensitive to boundary condition data, wind speed, bathymetry, nutrient kinetics, and algae, epiphyton, and zooplankton kinetics. Future conditions showed predictions of warmer water temperatures and slight changes to water quality conditions on the river. As fish in the area prefer cooler water temperatures, this could pose a threat to fish health and habitat. Flood retention structures also showed impacts to river temperature and water quality. Structures with the purpose of flood retention only (only operating during times of flooding) gave model predictions for daily maximum temperature higher than structures that employed flood retention and flow augmentation (operating during all times of the year). This suggested the management of flow passage or retention by the dam is important for water quality on the river. As this research continues improvements will be made, particularly to temperature and water quality constituents. Additional data for the system would be beneficial to this process. Model predictions of temperature were sensitive to meteorological data, including cloud cover, which were largely estimated based on solar radiation. Additional meteorological data throughout the basin would be useful to temperature results. Temperature results were also sensitive to the model bathymetry, and additional investigations into segments widths and water depths may improve temperature predictions. Water quality constituent data were largely lacking for the system. Many estimation techniques and approximations were used for input water quality constituents for the model upstream boundary and tributaries when little or no data were available, introducing uncertainty to the model. It was not possible to calibrate pH to field data because alkalinity data were essentially unavailable. However, other constituents had good agreement between model predictions and field data, including dissolved oxygen, nitrates, total phosphorus, and total suspended solids.

Civil and Environmental Engineering

Water Resource Management

Flow Variability and Vegetation Dynamics in a Large Arid Floodplain: Cooper Creek, Australia

Capon, Samantha Jane, n/a

January 2004

Throughout arid and semi-arid inland Australia, many extensive floodplains occur in association with rivers which are amongst the most hydrologically variable in the world. As rainfall in these areas is characteristically low and patchy, conditions in Australia's 'dryland' floodplains fluctuate unpredictably between extended periods of drought and huge floods that transform vast areas into wetlands, often for months at a time. Vegetation in these floodplains is commonly dominated by short grass and forb associations and patches of open succulent shrubland which are attributed with high ecological and socio-economic values due to their provision of habitat to a diverse array of terrestrial and aquatic fauna and their productive native pasture growth. In temperate and tropical floodplains, a substantial number of studies have shown that plant community composition and structure is determined primarily by flow and alterations to flow in these areas, through water extraction or river regulation, have resulted in many changes to the vegetation including loss of biodiversity and mass invasions of exotic species. Despite increasing pressure for water resource development in 'dryland' regions, relatively little is known regarding the effects of highly variable flows on the vegetation dynamics of arid floodplains, particularly in Australia. This thesis addresses this knowledge gap by examining the role of flow in the vegetation dynamics of a large arid floodplain in central Australia: the Cooper Creek floodplain. The effects of flow on plant community dynamics, from an organism level to that of the landscape, are examined across a range of spatial and temporal scales. Results are presented from a two year temporal vegetation survey during which time two flood pulse events of differing sizes occurred. A large-scale spatial survey was also conducted to determine the effects of flood history on spatial variation in plant community composition and structure. The composition of the soil seed bank and its contribution to vegetation dynamics were additionally investigated through a series of germination trials. Amongst common arid floodplain plants, life history traits that enable persistence under variable hydrological conditions were also considered via several experiments aimed at determining the effects of flow on the outcomes of various life history stages including germination, growth and dispersal. Throughout the study, results are presented for plant groups that were predefined on the basis of life form, life span and taxonomic divisions within these categories. Plant community composition and structure in the Cooper Creek floodplain exhibits significant shifts both temporally, in response to flood pulse wetting and drying, and spatially, in response to flood history. Flood pulse inundation has the potential to influence each life history stage across the range of plant groups present and the outcomes of these appear to be determined by hydrological attributes such as flood pulse timing, duration and rate of drawdown. Vegetation consequently exhibits gradual zonation on a gradient of flood frequency along which plant groups occur at predictable locations depending on their life history traits and recent hydrological conditions. A substantial proportion of species display ruderal life history traits including large, persistent soil seed banks and rapid life cycles which enable escape in time from the stresses associated with flooding and drought. These species, mostly comprising annual monocots and forbs, are widespread throughout the landscape and their presence in the extant vegetation is related primarily to the time since the last flood pulse event and the hydrological attributes of this. Perennial species, particularly shrubs, do not appear to rely similarly on the soil seed bank for recruitment and their distribution in the floodplain vegetation is likely to be determined more by their ability to tolerate either flooding or drought. Overall, this study demonstrates that flow, despite its variability, has an overriding influence on vegetation dynamics in the arid floodplain of the Cooper Creek. The spatial and temporal variability of flow maintains a heterogeneous mosaic of plant communities of differing composition and structure. Given this close relationship between flow and vegetation dynamics, anthropogenic alterations to flow are likely to result in changes to the vegetation including homogenisation of plant communities across the floodplain landscape and eventual loss of biodiversity.

flow

stream flow

river

rivers

stream

streams

floodplain

floodplains

arid

vegetation

plant communities

germination

growth

dispersal

variable

variability

soil seed banks

drought

flood

flooding

dryland

Australia

Australian

Cooper Creek

Land Use Change and Economic Opportunity in Amazonia: An Agent-based Model

Cabrera, Arthur Raymond

January 2009

Economic changes such as rising açaí prices and the availability of off-farm employment are transforming the landscape of the Amazonian várzea, subject to decision-making at the farming household level. Land use change results from complex human-environment interactions which can be addressed by an agent-based model. An agent-based model is a simulation model composed of autonomous interacting entities known as agents, built from the bottom-up. Coupled with cellular automata, which forms the agents’ environment, agent-based models are becoming an important tool of land use science, complementing traditional methods of induction and deduction. The decision-making methods employed by agent-based models in recent years have included optimization, imitation, heuristics, classifier systems and genetic algorithms, among others, but multiple methods have rarely been comparatively analyzed. A modular agent-based model is designed to allow the researcher to substitute alternative decision-making methods. For a smallholder farming community in Marajó Island near Ponta de Pedras, Pará, Brazil, 21 households are simulated over a 40-year period. In three major scenarios of increasing complexity, these households first face an environment where goods sell at a constant price throughout the simulated period and there are no outside employment opportunities. This is followed by a scenario of variable prices based on empirical data. The third scenario combines variable prices with limited employment opportunities, creating multi-sited households as members emigrate. In each scenario, populations of optimizing agents and heuristic agents are analyzed in parallel. While optimizing agents allocate land cells to maximize revenue using linear programming, fast and frugal heuristic agents use decision trees to quickly pare down feasible solutions and probabilistically select between alternatives weighted by expected revenue. Using distributed computing, the model is run through several parameter sweeps and results are recorded to a cenral database. Land use trajectories and sensitivity analyses highlight the relative biases of each decision-making method and illustrate cases where alternative methods lead to significantly divergent outcomes. A hybrid approach is recommended, employing alternative decision-making methods in parallel to illustrate inefficiencies exogenous and endogenous to the decision-maker, or allowing agents to select among multiple methods to mitigate bias and best represent their real-world analogues.

agent-based model

amazon

simulation

decision-making

rationality

heuristics

açaí

land use

cellular automata

agriculture

economics

linear programming

multi-sited households

várzea

floodplain

multi-agent system

land use/cover change

bounded rationality

Geography