Effects of bedrock groundwater dynamics on hydro-biogeochemical processes in granitic headwater catchments / 基岩地下水動態が花崗岩山地源流域の水文・生物地球化学過程に与える諸影響

Iwasaki, Kenta

26 March 2018

京都大学 / 0048 / 新制・論文博士 / 博士(農学) / 乙第13180号 / 論農博第2859号 / 新制||農||1061(附属図書館) / 学位論文||H30||N5102(農学部図書室) / (主査)教授 小杉 緑子, 教授 北山 兼弘, 教授 舟川 晋也 / 学位規則第4条第2項該当 / Doctor of Agricultural Science / Kyoto University / DFAM

stream water

runoff generation process

riparian groundwater

end-member mixing analysis

dissloved inorganic nitrogen

forest hydrology

610

Mapping biosphere strontium isotope ratios across major lithological boundaries. A systematic investigation of the major influences on geographic variation in the 87Sr/86Sr composition of bioavailable strontium above the Cretaceous and Jurassic rocks of England.

Warham, Joseph O.

January 2011

Strontium isotope analysis has provided archaeologists with an unprecedented opportunity to study the mobility of humans and animals in the past. However, a lack of systematic environmental baseline data has seriously restricted the full potential of the analytical technique; there is little biosphere data available against which to compare measured skeletal data. This thesis examines the extent to which geographic variation in biosphere 87Sr/86Sr composition can be spatially resolved within the lowland terrain of England, in a geographically and geologically coherent study area. Systematically collected samples of vegetation, stream water and surface soils, including new and archived material have been used. The potential of these sample media to provide reliable estimates of the 87Sr/86Sr composition of bioavailable strontium are evaluated under both high-density and low-density sampling regimes, and against new analyses of local archaeological material. Areas lying south of the Anglian glacial limit, display a pattern of geographic 87Sr/86Sr biosphere variation (0.7080¿0.7105) controlled by solid geology, as demonstrated by high-density biosphere mapping. Data collected at a wider geographic scale, including above superficial deposits, indicate the dominant influence of re-worked local rocks on the biosphere. These methods have enabled a reclassification of the archaeologically important Cretaceous Chalk domain. Analysis of rainwater and other indicators of atmospheric deposition show that, in this setting, local biosphere variation is not significantly perturbed by atmospheric inputs. Time-related data from archaeological cattle and sheep/goat tooth enamel suggest that the modern biosphere data can be used to understand livestock management regimes and that these are more powerful than using an average value from the enamel. A more complete understanding of possible patterns of mobility in a group of humans has been achieved through analysis of material from Winchester and comparison with the Chalk biosphere domain. / British Geological Survey¿s British University Funding Initiative (BUFI) and the School of Life Sciences at the University of Bradford joint funding.

Archaeology

Geochemistry

Precipitation

Residential mobility

Sr-isotopes

Stream water

TIMS

Vegetation

Strontium isotope ratios

Animal tooth enamel

Temporal och spatial variation för pH och relaterade parametrar i Bastuån, Jämtland / Temporal and spatial variation of pH and related paramters in Bastuån, Jämtland

Enetjärn, Albin

January 2018

Anthropogenic emissions of acidifying substances, mainly sulfur dioxide, during the second half of the 20th century caused a widespread acidification of many European freshwater environments. Even relatively remote areas, such as inland northern Sweden, experienced reduced pH-values, much due to low buffering capacity in the environment. Extensive liming has taken place in Sweden over the past fifty years to counteract negative effects on limnic ecosystems. Despite a general increase in pH over the last decades, problems with acidification still occur. However, this can be hard to separate from natural acidity due to a large landscape variability. This study aims at describing the temporal and spatial variation of pH and pH-related parameters in Bastuån, a 46 km2 watershed in Jämtland, Sweden, which is being investigated for future liming measures. Existing water chemistry data sets were analyzed and extended with an additional field study, sampling the twelve largest tributaries to Bastuån. Results show that pronounced high and low pH values has become increasingly rare while the average is basically unchanged between 1999 and 2017. Low pH is mainly associated with high discharge during snowmelt or rain events. Anthropogenic SO42- concentrations seems to contribute relatively little to pH-depressions while organic acids plays a more important role. Large water chemical variations in the tributaries indicate that several different biological and physical properties within the watershed regulates pH. However, any credible function that can predict pH using such properties remains to be found.

acidification

stream water chemistry

landscape variability

flow regimes

Earth and Related Environmental Sciences

Geovetenskap och miljövetenskap

Sura sulfatjordar och vattenkvalitet Vattenmätningar från Vörå å 1969–2017 / Acid sulphate soils and water quality Water data from Vörå å 1969–2017

Hagenby, John

January 2018

Sura sulfatjordar (SSJ) bildas på tidigare havsbottnar med sulfidhaltiga sediment som med landhöjningen har lyfts upp ur havet och genom grundvattensänkande aktiviteter  exponerats för syre. Vörå å är ett vattendrag  i västra Finland som är kraftigt SSJ-påverkat. Närings-, trafik- och miljöcentralen i Österbotten har gjort vattenmätningar i Vörå å i flera decennier och syftet med detta arbete var att strukturera, beskriva och tolka tidigare obehandlade data från vattenmätningar som gjorts mellan 1969 och 2017 och därmed synliggöra årstidsvariationer och förändringar i vattnets kemiska sammansättning över tid. Vattenkvaliteten i Vörå å var allra sämst under höst och vår: pH <5, höga sulfathalter och konduktivitet om 25–100 mS/m.  Suspenderat material och turbiditet var som högst i april medan pH, konduktivitet, järnhalt och COD var som högst under sommaren. Variationerna i vattnets kemiska sammansättning var minst under våren och störst under sommaren då flera variabler uppvisade en mycket stor spridning. I slutet av mätperioden uppvisade många variabler en liten bättring och vad denna beror på är oklart. I och med klimatförändringar har årsmedeltemperaturerna i Finland stigit vilket skulle kunna tänkas påverka tiden för högflöden. Det finns tecken i datan som tyder på sådana förändringar sedan 1970-talet. Metallmätningar som gjorts under 2000-talet jämfördes mot bakgrundsvärden, vissa uppvisade förhöjda värden. / Acid sulphate soils (ASS) form in sulphide bearing marine sediments that have been exposed to atmospheric oxygen caused by eustatic uplift and draining of cultivated fields. The river Vörå å, in western Finland, is a small stream that is severely affected by ASS. Finnish authorities have during decades sampled and analysed the water, but the data has not been interpreted. The objective of this study was to structure, describe and interpret previously untreated analyses data of the water samples from the years 1969 to 2017. Wa-ter quality was in general very bad and the worst situations occurred during springs and late autumns with pH <5, high sulphate concentrations and EC between 25–100 mS/m. Suspended solids and turbidity peaked in April while pH, EC, iron concentration and COD were highest during the summer. The variations in the chemical composition of the water were lowest during the spring and most widespread during the summer. At the end of the measurement period, many variables showed a slight improvement, the reason for this is unclear. Due to climate change the mean temperatures in Finland have increased, this may possibly affect the timing for snow melt in the spring and the time for flooding during the autumn. There are signs in the data indicating such changes. Metal concentra-tions from samples collected since 2005/2010 were compared with regional background values. Some metals demonstrated high concentrations.

Vörå å

acid sulphate soils

pH

electric conductivity

suspended solids

water data

stream water

climate change

Vörå å

sura sulfatjordar

pH

konduktivitet

sulfat

försurning

suspenderat material

vattenmätningar

vattendrag

vattenkvalitet

klimatförändring

vattnets kemiska sammansättning

Environmental Sciences

Miljövetenskap

Groundwater-stream water interactions: point and distributed measurements and innovative upscaling technologies

Gaona Garcia, Jaime

27 June 2019

The need to consider groundwater and surface water as a single resource has fostered the interest of the scientific community on the interactions between surface water and groundwater. The region below and alongside rivers where surface hydrology and subsurface hydrology concur is the hyporheic zone. This is the region where water exchange determines many biogeochemical and ecological processes of great impact on the functioning of rivers. However, the complex processes taking place in the hyporheic zone require a multidisciplinary approach. The combination of innovative point and distributed techniques originally developed in separated disciplines is of great advantage for the indirect identification of water exchange in the hyporheic zone. Distributed techniques using temperature as a tracer such as fiber-optic distributed temperature sensing can identify the different components of groundwater-surface water interactions based on their spatial and temporal thermal patterns at the sediment-water interface. In particular, groundwater, interflow discharge and local hyporheic exchange flows can be differentiated based on the distinct size, duration and sign of the temperature anomalies. The scale range and resolution of fiber-optic distributed temperature sensing are well complemented by geophysics providing subsurface structures with a similar resolution and scale. Thus, the use of fiber-optic distributed temperature sensing to trace flux patterns supported by the exploration of subsurface structures with geophysics enables spatial and temporal investigation of groundwater-surface water interactions with an unprecedented level of accuracy and resolution. In contrast to the aforementioned methods that can be used for pattern identification at the interface, other methods such as point techniques are required to quantify hyporheic exchange fluxes. In the present PhD thesis, point methods based on hydraulic gradients and thermal profiles are used to quantify hyporheic exchange flows. However, both methods are one-dimensional methods and assume that only vertical flow occurs while the reality is much more complex. The study evaluates the accuracy of the available methods and the factors that impact their reliability. The applied methods allow not only to quantify hyporheic exchange flows but they are also the basis for an interpretation of the sediment layering in the hyporheic zone. For upscaling of the previous results three-dimensional modelling of flow and heat transport in the hyporheic zone combines pattern identification and quantification of fluxes into a single framework. Modelling can evaluate the influence of factors governing groundwater-surface water interactions as well as assess the impact of multiple aspects of model design and calibration of high impact on the reliability of the simulations. But more importantly, this modelling approach enables accurate estimation of water exchange at any location of the domain with unparalleled resolution. Despite the challenges in 3D modelling of the hyporheic zone and in the integration of point and distributed data in models, the benefits should encourage the hyporheic community to adopt an integrative approach comprising from the measurement to the upscaling of hyporheic processes.

groundwater exfiltration

interflow discharge

hyporheic exchange flow

temperature anomaly

flood

electromagnetic induction geophysic

FLUX-LM

VFLUX

1DTempPro

Settore ICAR/01 - Idraulica