Dissertations / Theses on the topic 'Riparian soils'
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Rose, Michael. "Phosphorous dynamics in periodically flooded and drained riparian soils." Thesis, University of Reading, 2001. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.367719.
Full textLopez, Alfredo R. "Biodegradability of dicamba and 2,4-D in riparian wetland soils." Thesis, This resource online, 1995. http://scholar.lib.vt.edu/theses/available/etd-06082009-170726/.
Full textFlynn, Nicola Jane. "Nitrogen interactions between floodwater and floodplain soils." Thesis, Royal Holloway, University of London, 2000. http://ethos.bl.uk/OrderDetails.do?uin=uk.bl.ethos.311972.
Full textWilliams, Emily Rose. "The Effects of Depth and Hydrological Connectivity on Heavy Metal Loading in Riparian Zones." Thesis, Umeå universitet, Institutionen för ekologi, miljö och geovetenskap, 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:umu:diva-185245.
Full textRahe, Nathan. "RESTORATION OF RIPARIAN BUFFER FUNCTION IN RECLAIMED SURFACE MINE SOILS IN SOUTHERN ILLINOIS." OpenSIUC, 2013. https://opensiuc.lib.siu.edu/theses/1149.
Full textCook, Steven Allen. "Characterization of riparian wetland soils and associated metal concentrations at the headwaters of the Stillwater River, Montana." Thesis, Montana State University, 2007. http://etd.lib.montana.edu/etd/2007/cook/CookS0507.pdf.
Full textLymburner, Leo. "Mapping riparian vegetation functions using remote sensing and terrain analysis." Connect to thesis, 2005. http://repository.unimelb.edu.au/10187/2821.
Full textJungst, Laura J. "Soil quality and stream channel characteristics of montane and subalpine riparian meadows, Sierra Nevada, California." Laramie, Wyo. : University of Wyoming, 2008. http://proquest.umi.com/pqdweb?did=1799711371&sid=1&Fmt=2&clientId=18949&RQT=309&VName=PQD.
Full textSessoms, Holly Nicol. "Water use potential and salt tolerance of riparian species in saline-sodic environments." Thesis, Montana State University, 2004. http://etd.lib.montana.edu/etd/2004/sessoms/SessomsH0805.pdf.
Full textUnger, Irene M. "A multi-dimensional investigation into the effects of flooding on the physical, chemical and biotic properties of riparian soils." Diss., Columbia, Mo. : University of Missouri-Columbia, 2008. http://hdl.handle.net/10355/5582.
Full textThe entire dissertation/thesis text is included in the research.pdf file; the official abstract appears in the short.pdf file (which also appears in the research.pdf); a non-technical general description, or public abstract, appears in the public.pdf file. Title from title screen of research.pdf file (viewed June 17, 2009). Vita. Includes bibliographical references.
Smedley, Scott Brian. "Denitrification potentials in soils underlying a riparian forest and an agricultural field in the coastal plain of Virginia." Thesis, This resource online, 1993. http://scholar.lib.vt.edu/theses/available/etd-01242009-063055/.
Full textNeal, Andrew Wilson. "Soil Carbon and Nitrogen Dynamics Across the Hillslope-Riparian Interface in Adjacent Watersheds with Contrasting Cellulosic Biofuel Systems." Thesis, Virginia Tech, 2014. http://hdl.handle.net/10919/48125.
Full textMaster of Science
Graf-Rosenfellner, Markus [Verfasser], Martin [Akademischer Betreuer] Kaupenjohann, Martin [Gutachter] Kaupenjohann, and Friederike [Gutachter] Lang. "Soil organic matter in riparian floodplain soils : regionalization of stocks and stabilization processes / Markus Graf-Rosenfellner ; Gutachter: Martin Kaupenjohann, Friederike Lang ; Betreuer: Martin Kaupenjohann." Berlin : Technische Universität Berlin, 2016. http://d-nb.info/1156274958/34.
Full textBorries, Blair. "Evaluating Stream and Wetland Restoration Success on Surface Mines in Southern Illinois." OpenSIUC, 2013. https://opensiuc.lib.siu.edu/theses/1313.
Full textAltor, Anne E. "Methane and carbon dioxide fluxes in created riparian wetlands in the midwestern USA effects of hydrologic pulses, emergent vegetation and hydric soils /." Columbus, Ohio : Ohio State University, 2007. http://rave.ohiolink.edu/etdc/view?acc%5Fnum=osu1180460525.
Full textMomoli, Renata Santos. "Dinâmica da sedimentação em solos sob matas ciliares." Universidade de São Paulo, 2011. http://www.teses.usp.br/teses/disponiveis/11/11140/tde-08082011-102417/.
Full textAgricultural expansion in the Brazilian Savanna causes several negative impacts due to inappropriate land use. One of these impacts is represented by soil erosion in agricultural fields producing big amounts of sediment, which can be intercepted by vegetated areas with pastures or arboreous species. Several conservationist techniques are indicated to minimize these impacts, including maintenance of native vegetal coverage along water courses.Riparian forests act as ecological corridors promoting biodiversity and collaborating in water and soil quality maintenance. The symmetric and fixed width of vegetated stripes proposed by law is inefficient in some situations, and the ideal width is still controversial . With the purpose of proposing new data about the ideal width for permanent preservation areas (APPs), this study analyzes riparian forests in an integrated way taking into account several factors that influence the dynamic of riparian ecosystems. Climatic, geomorphological and pedological factors are related and focused in interaction with riparian forests, erosion processes and related intrinsic impacts. Conventional techniques were used for the soil studies such as structural analysis, particle size distribution analysis with dispersive solutions (NaOH and H2O) and micromorphology. Other techniques were used for geomorphological studies like erosion pins and dendrogeomorphology that uses trees as a temporal evidence of environmental processes. Using these techniques the spatial-temporal distribution of sediments deposited on the sources located in the riparian zone of the basin of Meia Ponte river, was studied. The integrated analysis of particle size and morphology of soils and sediments revealed the dominance of sedimentation along the edge of the riparian forest. The deposition of sediments in the study area varies greatly (coefficient of variation of 77.76%) both in space and time, the deposition was observed up to 37 cm of sediments in some locations, and erosion of up to 14 cm in surface in others. From one month to another was also observed alternation of sedimentation and erosion in one place. The dendrogeomorphic analysis showed that in the last 15 years there was deposition of sediment of up to 50 cm. Sediment deposition in the study area is generally distributed in an average of 12 cm, and locally next to rills (ephemeral gullies) and tabular roots of trees such as figs (Ficus insipida). The biggest rates of sedimentation occurred in the summer of 2008/2009 when very intense rains hit bare soil. The occurrence of gullies that cross both the field and the riparian zone and reduces the efficiency of riparian forest on sediment retention. Another negative impact is the large proportion of the springs and seedling burial that affect forest regeneration.
Estrup, Andersen Hans. "Hydrology, nutrient processes and vegetation in floodplain wetlands." Copenhagen : Den kgl. Veterinær- og Landbohøjskole, 2002. http://www2.dmu.dk/1_viden/2_Publikationer/3_Ovrige/rapporter/Phd_HEA.pdf.
Full textGumbert, Amanda A. "INFLUENCE OF RIPARIAN BUFFER MANAGEMENT STRATEGIES ON SOIL PROPERTIES." UKnowledge, 2013. http://uknowledge.uky.edu/pss_etds/27.
Full textNairn, Robert W. "Biogeochemistry of newly created riparian wetlands : evaluation of water quality changes and soil development /." Connect to resource, 1996. http://rave.ohiolink.edu/etdc/view.cgi?acc%5Fnum=osu1251216965.
Full textScott, Russell Lawrence. "Riparian and rangeland soil-vegetation-atmosphere interactions in southeastern Arizona." Diss., The University of Arizona, 1999. http://hdl.handle.net/10150/284006.
Full textNakao, Megumi. "Costs of using Riparian Forest Buffer for Soil Erosion Constrol." Connect to resource, 1998. http://rave.ohiolink.edu/etdc/view?acc%5Fnum=osu1216923874.
Full textMartin, Teri L. "Groundwater nitrate removal and soil microbial community structure in a riparian zone." Thesis, National Library of Canada = Bibliothèque nationale du Canada, 1998. http://www.collectionscanada.ca/obj/s4/f2/dsk2/tape17/PQDD_0011/MQ33250.pdf.
Full textRoosa, Benjamin. "Soil Indicators of Restored Ecological Function Following Riparian Afforestation in Southern Illinois." OpenSIUC, 2018. https://opensiuc.lib.siu.edu/theses/2452.
Full textTanzosh, Joyce K. "Soil carbon dynamics and gaseous emissions in riparian zones in Coshocton, Ohio." The Ohio State University, 2005. http://rave.ohiolink.edu/etdc/view?acc_num=osu1314631878.
Full textWallace, Casey Ruth. "Riparian Graminoid Species Responses and Productivity in Compromised Environmental and Soil Conditions." Thesis, North Dakota State University, 2019. https://hdl.handle.net/10365/31731.
Full textPacific, Vincent Jerald. "Variability in soil CO2 production and surface CO2 efflux across riparian-hillslope transitions." Thesis, Montana State University, 2007. http://etd.lib.montana.edu/etd/2007/pacific/PacificV0507.pdf.
Full textSlabbert, Etienne. "Microbial communities of riparian ecotone invaded by non-indigenous Acacias." Thesis, Stellenbosch : Stellenbosch University, 2012. http://hdl.handle.net/10019.1/20367.
Full textTufekcioglu, Mustafa. "Riparian land-use impacts on stream bank soil and phosphorus losses from grazed pastures." [Ames, Iowa : Iowa State University], 2006.
Find full textNguyen, Uyen. "Multiscale Remote Sensing Analysis To Monitor Riparian And Upland Semiarid Vegetation." Diss., The University of Arizona, 2015. http://hdl.handle.net/10150/556735.
Full textEnsor, Breanne Leigh. "Spatial and Temporal Trends in Greenhouse Gas Fluxes from a Temperate Floodplain along a Stream-Riparian-Upland Gradient." Thesis, Virginia Tech, 2016. http://hdl.handle.net/10919/71424.
Full textMaster of Science
Nelson, Amanda. "CARBON AND NITROGEN CYCLING IN GIANT CANE (ARUNDINARIA GIGANTEA (WALT.) MUHL.) RIPARIAN ECOSYSTEMS." OpenSIUC, 2015. https://opensiuc.lib.siu.edu/dissertations/986.
Full textFauver, Rebecca. "The impact of the invasive species, Lonicera maackii, on soil microbial communities in Riparian Forests." Connect to resource, 2006. http://hdl.handle.net/1811/6625.
Full textTitle from first page of PDF file. Document formatted into pages: contains 13 p.; also includes graphics. Includes bibliographical references (p. 12-13). Available online via Ohio State University's Knowledge Bank.
Goble, Michael Dane. "Allometry, Morphometry and Soil Characterization of Giant Cane [Arundinaria gigantea (Walt.) Muhl.] Stands in Southern Illinois." OpenSIUC, 2013. https://opensiuc.lib.siu.edu/theses/1103.
Full textRhoades, Erica L. "Quantifying bank erosion on the South River and its importance in assessing mercury contamination." Access to citation, abstract and download form provided by ProQuest Information and Learning Company; downloadable PDF file, 82 p, 2008. http://proquest.umi.com/pqdweb?did=1597631421&sid=7&Fmt=2&clientId=8331&RQT=309&VName=PQD.
Full textGalera, Leonardo de Aro. "Carbon sequestration potential of the soil in the restoration of riparian forests of the Corumbataí basin (SP)." Universidade de São Paulo, 2018. http://www.teses.usp.br/teses/disponiveis/64/64135/tde-13112018-114443/.
Full textA matéria orgânica do solo é o maior reservatório de carbono entre os ambientes terrestres e é muito importante na regulação do clima em escala global. As estratégias para o aumento dos estoques de carbono do solo incluem o reflorestamento e a adoção de práticas recomendadas de manejo como o plantio direto e o uso de culturas de cobertura. A substituição de florestas por áreas agrícolas pode reduzir os estoques de carbono do solo ao diminuir a aporte de carbono e aumentar a decomposição da matéria orgânica. O Código Florestal obriga proprietários de terra a conservar a vegetação nativa por meio de Reserva Legal e Áreas de Preservação Permanente, que inclui topos de morro e áreas ripárias. Sabe-se que florestas ripárias provêm diversos serviços ambientais como a conservação da biodiversidade e o aumento na disponibilidade e qualidade da água. Outro possível serviço ambiental é a mitigação das mudanças climáticas pelo acúmulo de carbono na vegetação e no solo. A restauração das zonas ripárias representa uma importante oportunidade para o sequestro de carbono no Brasil, já que são obrigatórias segundo o Código Florestal. O objetivo deste estudo é contribuir com a discussão sobre o papel das florestas ripárias na mitigação das mudanças climáticas. Foram comparados os estoques de carbono de florestas ripárias com os de áreas agrícolas, no caso pastagens e canaviais. O estoque de carbono médio dos solos florestais foi de 44 Mg.ha-1, dos de pastagem foi de 26 Mg.ha-1 e dos sob canaviais foi de 27 Mg.ha-1. Baseado nesses valores, o impacto do reflorestamento das zonas ripárias (30 m) das 50 microbacias amostradas foi estimado, e segundo essa estimativa haveria um acréscimo de 20% de carbono na camada de 0-30 cm destas áreas. Esperamos que este trabalho contribua no entendimento do papel das florestas ripárias na mitigação das mudanças climáticas e que a inclusão da restauração destes ambientes como opção de estratégia de mitigação enfatize a urgência em preservá-los
Gu, Sen. "Release of dissolved and colloidal phosphorus from riparian wetlands : a field and laboratory assessment of the mechanisms and controlling factors." Thesis, Rennes 1, 2017. http://www.theses.fr/2017REN1S063/document.
Full textPhosphorus (P) is a key nutrient in controlling surface water eutrophication. Because of the decrease of urban and industrial P emissions, most of the P nowadays causing surface water eutrophication in western countries consists of P transferred from agricultural soils, explaining why current eutrophication research focused on understanding the mechanisms by which P is released from soils. In this thesis, we studied these release mechanisms for dissolved P (DP) – i.e. the most bioavailable P component for algae - using an approach combining field monitoring of soil and stream water compositions in a small, headwater catchment typical of western countries agricultural catchments (the Kervidy-Naizn catchment, France), and laboratory experimental simulations. Field monitoring data revealed that riparian wetlands (RW) are the main zones of DP release and DP production in the studied catchment, through essentially two mechanisms triggered by groundwater table fluctuations, namely i) rewetting of dry soils (DRW), and ii) reductive dissolution of soil Fe (hydr)oxides during anaerobic periods. Field monitoring data also revealed the presence of strong spatial variations in the chemical nature (inorganic vs. organic/colloidal) of the released DP, which was in relation to differences in soil properties and local topography. Seasonal and inter-annual hydroclimate variations, combined with variations in local topography were found to control the frequency of soil DRW events and duration of anaerobic periods, resulting in strong seasonal and inter-annual variations of DP release dynamics. As shown in a conceptual model, topography is likely to be the key driver of the observed spatial and temporal variations, because of its combined control on i) the transfer of P from upland fields to RW zones, ii) the mineralization rates of soil organic P and iii) the triggering of the above two release mechanisms. Laboratory leaching experiments on the same soils confirmed the role of DRW events as a major process causing DP release pulses in RWs. The data demonstrated that the released DP consisted not only of true dissolved inorganic and organic P but also of colloidal P, the latter phase being the most reactive to DRW events. The data also revealed that the different P forms came from different P sources in the soil (soil macro/mesopores for colloidal P and organic DP; soil micropores for inorganic DP) and that the amount of released colloidal P correlated positively with the organic matter contents and soil microbial biomass size of the soil. Anaerobic incubation experiments, on their hand, confirmed the role of anoxic conditions as conditions favoring the release of DP in RW. Reductive dissolution of soil Fe-oxyhydroxide was, however, not the sole process involved in that release, another process being the rise in pH caused by reduction reactions. Experimental data showed that the pH rise controlled the DP release in organic-rich soils, this release being on the contrary mainly controlled by soil Fe-oxyhydroxides reductive dissolution in organic-poor soils. Experimental data also showed that the input of soil sediments from upland fields enhanced the release of DP in RW, most likely due to the enhanced dissolution of sediment Fe-oxyhydroxides by RW Fe-reducing bacteria. Overall, this thesis allowed new constraints to be placed on the release mechanisms of DP in headwater agricultural catchments. One very practical output is that great care should be taken of hydroclimate variability, local topography, and soil property when designing and implementing management options to reduce DP release and transfer in agricultural catchments
Moore, Erin Amanda. "An analysis of solute transport on a harvested hillslope in the southern Appalachian Mountains." Thesis, Virginia Tech, 2008. http://hdl.handle.net/10919/32758.
Full textMaster of Science
Vosse, Shelly. "The restoration potential of fynbos riparian seed banks following alien clearing." Thesis, Stellenbosch : University of Stellenbosch, 2007. http://hdl.handle.net/10019.1/3049.
Full textRiparian areas are highly complex systems with varying levels of disturbance that are highly susceptible to invasion by alien plants. Once invaded, riparian areas play a major role in the dispersal and spread of invasive alien plants (IAPs) through the river system and, in some cases, to neighbouring landscapes. Riparian areas have therefore been prioritized by many alien clearing initiatives in South Africa. Current practice for the restoration of cleared areas is minimal and relies mainly on the un-aided recovery of native species from residual individuals and soil stored seed banks. Little research, however, has been done on the effectiveness of this approach or the extent to which riparian seed banks contribute towards community restoration. This study is part of a national research initiative (Targets for Ecosystem Repair in Riparian Ecosystems in Fynbos, Grassland and Savanna Biomes) funded by Department of Water Affairs and Forestry, in collaboration with Working for Water, The Centre for Invasion Biology and the Universities of Cape Town, Stellenbosch, Rhodes and Witwatersrand. The initiative undertook to investigate different restoration techniques on various invaded sites for their cost-effectiveness, efficiency, practicality and conservation integrity. This study has three aims. The first is to determine the composition of seed banks in un-invaded riparian areas within the fynbos biome to be used as a benchmark for future research, restoration grading and other management requirements. The second aim is to determine the composition of seed banks in heavily invaded riparian areas, and thus to assess the impact of invasion on the integrity of the seed banks. The third aim is to evaluate the restoration potential of riparian seed banks following the clearing of invasive alien plants (IAPs). Study sites were selected within four river systems in the south-western part of the Western Cape Province in South Africa: the Berg, Eerste, Molenaars and Wit Rivers. Plots were selected in both invaded (>75% IAP canopy cover; considered “closed” alien stands) and un-invaded (also termed reference, with <25% IAP canopy cover) sections of the river. Replicate plots were established along varying gradients of elevation (mountain stream and foothill) and moisture regimes (dry, wet and transitional bank zones). Soil samples were collected together with above-ground vegetation surveys and comparisons were made. Results from this study confirm those of previous studies that seed banks offer little reference to current aboveground vegetation, but rather offer insight into past vegetation history as well as future vegetation assemblages. Worldwide, many of the species that characteristically form seed banks are early successional species. A community study was done for the seed bank based on the species that germinated and were identifiable at termination of the project (6 months after initiation). Three clusters of species could be identified. One group comprised 32 generalist species that occurred in both reference and invaded sections of the rivers. A second group comprised 39 species associated with invaded sites, and a third group of 40 species that was associated with reference sites. A few sub-community groups were found within both the “reference” and “invaded” community groups which were assumed to be habitat specific. Most species were “pioneer” or relatively-short lived, early-successional species which play a vital role in the initial post-disturbance vegetation cover, and facilitate establishment of later successional species. Seed banks are notoriously variable over space and time, and floristic representation is often biased as a result of differences among species in seed production, dispersal and longevity in the soil. The general consensus is that seeds have an irregular, clustered spatial distribution that is dictated by both biological and environmental factors. Within river systems, the irregular clustering can be exceptionally skewed with the influence of pockets of high sediment deposition along the bank. Environmental factors that were found to significantly skew germination results were the presence of fire, as well as the extent and intensity of invasion (duration and cover). The high level of diversity and abundance in reference Berg River mountain stream seed banks was perceived to be a direct result of a moderate fire frequency (between 8-15 years) and the relatively natural state of the vegetation (i.e. very little invasion). Also, diversity and richness of indigenous species from the Wit and Molenaars Rivers were substantially higher in the invaded samples than the reference samples, probably because both river systems have a long history of invasion and other anthropogenic disturbances which would have an effect on the samples from “reference” sections (i.e. even a 25% presence of IAPs seems adequate enough to alter the composition of the seed bank). Correspondence analyses showed that species had clear affinities towards different levels of “key” riparian environmental variables (fire, invasion and anthropogenic disturbance). Most species were associated with moderate levels of fire frequency, invasion history, and anthropogenic disturbance. Comparisons of seed bank species assemblages between the lateral and longitudinal variables of the rivers offered insights into the habitat requirements of certain fynbos and riparian species. Most significant were the results from bank zone comparisons which showed distinct species groupings along the different moisture bands. As could be expected, riparian species were best represented within the wet bank zones and fynbos species within the dry bank zone, while species characteristic of both zones occurred in the transitional zone, making this seed bank zone the richest in species. Mountain stream sections were richer and more diverse than foothill sections over both invaded and reference samples. This is hypothesised to be linked to lower levels of anthropogenic disturbance experienced in the mountain stream sections. The impact of invasion on the riparian seed bank was most clearly shown through the correspondence analyses for the 20 most frequently occurring species. The seed bank assembly patterns were clearly defined by the state of the river (reference or invaded). Interestingly, this pattern was evident at all three spatial scales; landscape (rivers), reach (mountain stream and foothill sections) and habitat (dry, wet and transitional zones). The reference seed bank assemblage was more tightly grouped, implying that the species were more closely associated with each other and less variable than those of the invaded seed bank assemblages. The species groupings within the invaded seed banks were influenced by variables such as reach and zone, whereas the reference seed bank assemblages seem relatively unaffected by these variables. This implies that the presence of invasive alien plants creates additional variation within the seed bank which alters the natural groupings. At a broad scale, the invaded seed banks were less species rich. This means that not only will the resulting seedling community be harder to predict, but it will also have fewer species. However although generally lower in species richness, the seed banks from almost all invaded rivers interestingly showed a higher diversity of indigenous species than their reference counterparts. This is very promising in terms of rehabilitation of post-cleared riparian sites, but more information is needed to understand the seed bank composition and determine how sustainable the seed banks are for rehabilitation in the long-term. All invaded sections had fewer herbaceous perennial species but more herbaceous annual species. Graminoids made up 50% or more of the seed bank regardless of state (reference or invaded), while woody species (shrubs/shrublets) were generally more prevalent in the reference samples. These results imply that following the removal of invasive alien plants, the vegetation to regenerate from the seed bank is likely to comprise of short-lived, herbaceous species that are not necessarily an accurate reflection of the indigenous riparian community. It is however important to note that this study investigated only the species that were able to germinate over the study period (6 month germination period). Many riparian species may not have been represented because they are either late germinators or may not be present in the soil seed bank at all. In order to gain a holistic understanding of riparian community recruitment, it is recommended that seed bank studies such as this one be included in a more broad scale, long term investigation which takes into account various reproductive strategies used by riparian species. Research of this nature is in its infancy worldwide and there are many challenges involved in measuring diversity and change in these systems. However, within the scope of this study, I suggest that these results shed light on previously unanswered and important questions regarding the ecology of seed banks in the riparian ecosystems of the Western Cape.
Arthur, Robson Clayton Jacques. "Análise da redistribuição do \"fallout\" do 137Cs na avaliação da erosão e deposição de sedimentos em sistemas de manejo de solo sob Cerrado." Universidade de São Paulo, 2010. http://www.teses.usp.br/teses/disponiveis/64/64134/tde-06052010-151125/.
Full textIn Brazil, the expansion of agricultural areas causes several problems on natural resources. With the increasing occupation of the Cerrado region by agriculture, a series of environmental problems like deforestation, soil erosion and soil compaction are appearing and causing radical transformations in the natural landscape due to removing almost all native vegetation. The conventional tillage system (CTS) is considered an inadequate form of soil management for its frequently irremediable consequences of soil compaction and soil erosion, and the no till system (NTS) makes the maintenance of the soil conditions possible, leving them close to the natural environment, thus reducing rates of soil erosion. The objective of this work was to evaluate the efficiency of riparian forests in the retention of sediments originated for three different tillage systems, through the fallout 137Cs redistribution technique, the Universal Soil Loss Equation (USLE) and some physical and chemical parameters that indicate the structural conditions of the soils of Goiatuba and Jandaia-GO. In the three areas, soil profiles were collected in three layers of 20 cm (0-20, 20-40 and 40-60 cm) at distinct points located along linear transects in the direction of the maximum slope until the riparian forest. In the riparian forest of each area, trenches were opened and soil was sampled to evaluate the activity of 137Cs and the physical and chemical parameters of soil. Detection of the activity of 137Cs was made with a gamma ray detector model (GEM-20180P, EG& ORTEC) connected to a multichannel analyzer. The comparison of averages was made using the Tukey test at 5% level of significance. The results indicated that, the three soil tillage systems presented high rates of soil erosion and deposition of sediments and the riparian forest of the areas under CTS, NTS and pasture, located downstream received great amounts of sediments, and that only the riparian forest of CTS was capable to trap the sediments with efficiency. The distinct characteristics of the three studied areas suggest that the efficiency of the riparian forest to retain the sediments generated in the agricultural and pasture areas, depends on the length and the slope of the transects, and of the width of riparian forest. Through the physical and chemical parameters it was observed that the pasture and the NTS were the soil tillage systems that presented the best conditions of soil preservation in relation to the CTS. The tree soil tillage systems caused alterations in the physical and chemical parameters, compared with the riparian forest, mainly by a lower resistance to penetration under CTS and a greater resistance in the NTS and pasture systems; reduction in soil aggregation under CTS and NTS and an increase under pasture, and decrease of organic matter and calcium under all tillage systems
Kambaj, Kambol Oliver. "In situ and ex situ soil respiration in natural, Acacia-invaded and cleared riparian ecotones in the Fynbos Biome." Thesis, Stellenbosch : Stellenbosch University, 2013. http://hdl.handle.net/10019.1/79854.
Full textENGLISH ABSTRACT: Soil respiration (Rs) is a major component of CO2 emissions and the global carbon balance. In the context of global change it of interest to understand seasonal patterns of RS in fynbos riparian ecosystems, particularly in invaded-riparian ecotones of these Mediterranean type ecosystems (MTE's) in the Western Cape, South Africa. Riparian ecotones are three dimensional transitional zones that provide multiple ecosystem services and functions and they act as the linkage between terrestrial and aquatic ecosystems where key ecological and geomorphological processes occur. Riparian ecotones are highly prone to disturbance, and because of this reason are also vulnerable to invasion by invasive alien plants (IAPs), notably Acacia species. Invasion by IAPs is considered one of the major threats to global change and biodiversity causing extensive ecological, economical, and social impacts. In south-western Cape, more than two thirds of the riparian environment is invaded to some extent, IAPs replacing the well adapted native species along river systems. In particular, impact of IAPs on soil respiration (Rs) may be relevant, with consequences for ecosystem function and services. Clearing of invaded riparian zones initiated by the Working for Water program has been a successful in eradicating alien plants within riparian areas even though recovery after alien clearing is lagging at many sites, and knowledge on repair of ecosystem function is lacking. Various studies have generated knowledge on carbon cycling and Rs in forests, savanna, grasslands, tundra and Mediterranean shrublands, but little is known about Rs in riparian zones, and even less about soil CO2 efflux in invaded riparian fynbos riparian ecotones. The objective of this study was to contribute to a better understanding and quantifying the effect and impact of IAPs on carbon cycling between and across riparian ecotones with different invasion status: natural, invaded, and cleared. The study areas were located in the south-western Cape and measurements of Rs, soil temperature, soil moisture, root mass, litter mass, and soil properties were carried out in riparian soils of the mountain and transitional stream longitudinal river sections, and uplands fynbos areas of six different perennial river systems. In each site, four to five transects were laid out with one sampling site of each landscape position (wet bank, dry bank, and terrestrial areas) giving a total of 12 to 15 samples per site. Soil respiration measurements were taken over a period of two years, and were done seasonally. Results from this study showed that Rs was different among seasons with highest soil respiration rates in summer. Soil CO2 efflux increased in response to warm and dry conditions during summer, while seasonal soil CO2 efflux declined in autumn and winter in response to wet and cold soil conditions. The large increase in soil CO2 efflux response to warm and dry periods when temperature was 25 to 30 °C over all riparian sites and was highest in invaded sites compared to the natural and cleared sites. A significant difference was found between sites with different statuses with invaded sites leading seasonal Rs rates. Natural and cleared sites did not differ significantly in their CO2 efflux rates, suggesting that clearing of IAPs may put invaded ecosystems on a trajectory of restoration. There were also differences in terms of landscape positions; dry banks zones of the invaded sites had higher rates compared to wet banks and the uplands areas. Our results further suggest that roots are the most important component of overall Rs rates, rather than microbial respiration. When we incubated soils minus roots, little difference was evident, either when viewing the results by invasion status or by landscape position, which suggest that inherent soil differences in terms of microbial respiration were not different. We also use a trenching approach to further investigate this, and though we found Rs to decline significantly, trends later suggest that decomposition of fine and course roots likely obscured the decline in overall Rs due to root respiration. Overall, our results showed that clearing of invaded riparian zones will likely lead to successful restoration of soil functioning in terms of C cycling. Clearing of Acacia-invaded riparian ecotones will likely lead to a decline in root density, and which removes a major component of overall Rs. These results make the investigation of the C balance of invaded riparian ecotones and terrestrial areas critical in order to assess their contribution to regional C cycles.
AFRIKAANSE OPSOMMING: Grondrespirasie (Rs) is 'n belangrike komponent van CO2 uitstroming en die globale koolstofbalans. Binne die konteks van globale verandering is dit van groot belang om die seisoenale patrone van Rs in fynbos oewer ekosisteme, veral in indringer-oewer ekotone, in die Meditereense tipe ekosisteme (MTE's) in die Wes- Kaap, Suid- Afrika te verstaan. Oewerekotone is drie-dimensioneel oorgangssones wat veelvuldige ekosisteem dienste en funksies verskaf. Hulle dien as die verbinding tussen terrestriële en water-ekosisteme waar kern ekologiese en geomorfologiese prosesse plaasvind. Oewerekotone is hoogs vatbaar vir versteuringe, en as gevolg van hierdie rede, is hul ook kwesbaar vir indringing deur indringer plante (IAPs), veral Acacia spesies. Indringing deur IAPs word beskou as een van die groot bedreigings tot en met globale verandering en biodiversiteit, wat ekstensiewe ekologiese, ekonomiese, en sosiale impakte veroorsaak. In die suid- westelike Kaap word meer as twee derdes van die oeweromgewing tot 'n mate binnegedring. IAPs vervang die goed aangepaste inheemse spesies langs riviersisteme. Die impak van IAPs, spesifiek op grondrespirasie mag substansieël wees, met gevolge vir ekosisteem funksies en dienste. Opruiming van hierdie spesifieke oewer sones, geinisieer deur die Working for Water program, was suksesvol in die uitroeing van indringer plante binne oewer areas. Alhoewel herstel na indringer opruiming op baie terreine agter is, is kennis oor die herstel van ekosisteemfunksies gebrekkig. Verskeie studies het kennis ontwikkel oor koolstofsiklisering en Rs in woude, savanna, graslande, tundra en Meditereense struiklande, maar daar is minimale informasie oor oewersones,en nog minder oor grond CO2 uitstroming in indringer oewer fynbos en oewer ekotone. Die doel van hierdie studie is om 'n bydrae te lewer koolstofsiklisering beter te verstaan, en die impak van IAPs op koolstofsiklisering te kwantifiseer tussen en oor oewerekotone met verkillende indringer statusse: natuurlik, binnegedring en skoongemaak. Die studie areas was geleë in die suid- westelike Kaap, en maatstawe van Rs, grond temperature, grondvogtigheid, wortelmassa, plantafvalmassa, en grondeienskappe is uitgevoer in oewergrond van die berg en transisionele stroom longitudinale rivier seksies, asook terrestriële fynbos areas van ses verskillende standhoudende riviersisteme. In elke area is vier tot vyf transekte uitgelê met een monsternemingsarea van elke landskapsposisie (nat bank, droë bank en terrestriële areas) met 'n totaal van 12 tot 15 monsters per area. Grondrespirasie maatstawe is geneem oor 'n periode van twee jaar, en is seisoenaal uitgevoer. Resultate van die studie het getoon dat Rs verkil het tussen seisoene, met die hoogste grondrespirasietempo in die somer. Grond CO2 uitstroming het toegeneem in reaksie op warm en droë kondisies gedurende somer, terwyl seisoenale grond CO2 uitstroming afgeneem het in herfs en winter in reaksie op nat en koue grond kondisies. Die grootste toename in grond CO2 uitstroming was in reaksie op warm en droë periodes wanneer temperature gewissel het tussen 25 tot 30˚C oor alle oewersones, en was die hoogste in binnegedringde sones, vergeleke met die natuurlike en skoongemaakte terreine. 'n Beduidende verskil is gevind tussen terreine met verskillende statusse in CO2 uitstromingskoerse‚ 'n aanduiding dat opruiming van IAPs binnegedringde ekosisteme op 'n trajek van restorasie plaas. Daar was ook verskille in terme van landskapsposisies; droë bank sones van die binnegedringde terreine het hoër tempos gehad, vergeleke met die nat bank en die hoogland areas. Ons resultate dui verder aan dat wortels, eerder as mikrobiologiese respirasie, die mees belangrike komponente van Rs koerse uitmaak. Toe ons grond minus wortels inkubeer, is min verskille opgemerk, as gekyk word na die resultate deur indringer status of landskapsposisie, wat toon dit dat inherente grondveskille in terme van mikrobiologiese respirasie nie verskillend is nie. Ons het verder ook 'n sloot-benadering gebruik om verdere ondersoek hierop in te stel, en alhoewel ons bevind dat Rs aansienlik afgeneem het, dui neigings later aan dat afbraak van fyn en growwe wortels die afname in gehele Rs as gevolg van wortel respirasie waarskynlik verdoesel. Ons resultate dui daarop dat opruiming van binngedringde oewers klaarblyklik sal lei tot suksesvolle restorasie van grondfunksionering in terme van C siklisering. Opruiming van Acacia- binnegedringde oewer ekotone sal vermoedelik lei tot 'n afname in worteldigtheid, en wat 'n belangrike komponent van die gehele Rs kan verwyder. Hierdie resultate maak die ondersoek van die C balans van binngedringde oewer ekotone en terrestriële areas krities, om sodoende hulle bydrae tot streeksgewyse C siklusse te asseseer.
Karlsson, Emil. "Multifaceted effects of competition and plant-soil feedbacks on Achillea millefolium grown in soil from a riparian meadow : Emil Karlsson - Umeå University - Thesis project - 60 hp." Thesis, Umeå universitet, Institutionen för ekologi, miljö och geovetenskap, 2021. http://urn.kb.se/resolve?urn=urn:nbn:se:umu:diva-181764.
Full textFourie, Saskia. "The restoration of an alien-invaded riparian zone in grassy fynbos, South Africa." Thesis, Rhodes University, 2013. http://hdl.handle.net/10962/d1003840.
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Full textFederal Formula Funding (Hatch-Act)
ND-EPSCoR
Fulbright-STEP scholarship
McGuire, Roberta Delehanty. "Transpiration, Growth And Survival Of Native Riparian And Introduced Saltcedar Trees In Mixed Stands On The San Pedro River, U.S.A." Diss., The University of Arizona, 2015. http://hdl.handle.net/10150/556824.
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Full textPringle, Keara Louise. "An Internship with the Ohio Environmental Protection Agency, Division of Surface Water: Understanding the Vegetation and Soil Conditions in Natural Riparian Forests." Miami University / OhioLINK, 2017. http://rave.ohiolink.edu/etdc/view?acc_num=miami149333522985015.
Full textCnossen, Peter D. "Streambank erosion: mechanisms and mitigation techniques." Thesis, Virginia Polytechnic Institute and State University, 1987. http://hdl.handle.net/10919/101370.
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Lakel, William. "Effects of Forestry Streamside Management Zones on Stream Water Quality, Channel Geometry, Soil Erosion, and Timber Management in the Virginia Piedmont." Diss., Virginia Tech, 2008. http://hdl.handle.net/10919/28619.
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Dean, Katie L. "Vertical distribution of soil water use and maintenance of stomatal conductance in the invasive exotic plant Lepidium latifolium in the riparian zone of the Walker River." abstract and full text PDF (UNR users only), 2009. http://0-gateway.proquest.com.innopac.library.unr.edu/openurl?url_ver=Z39.88-2004&rft_val_fmt=info:ofi/fmt:kev:mtx:dissertation&res_dat=xri:pqdiss&rft_dat=xri:pqdiss:1472950.
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