The effects of self-filtration on saturated hydraulic conductivity in sodic sandy soils

Dikinya, Oagile

January 2007

[Truncated abstract] Self-filtration is here defined as particle detachment and re-deposition causing re-arrangement of the particles and therefore pore space which affects water flow in soil by decreasing hydraulic conductivity. This is of particular important in soils which are susceptible to structural breakdown. The objective of this thesis was to examine the dynamics of the self-filtration process in sodic sandy soils as affected by ionic strength and soil solution composition. The temporal changes of hydraulic conductivity and the elution of fine particles from soil columns were used as the main criteria to assess selffiltration. Two porous media exhibiting significantly different structural cohesion were examined, one a loamy sand (Balkuling soil) from agricultural land use and the second a mining residue from mineral sands operations . . . The effects of the composition of mixed calcium (Ca) and sodium (Na) ions in solution (sodium adsorption ratio (SAR)) on the exchange behaviour and saturated hydraulic conductivity were examined by carrying out batch binary exchange and saturated column transport experiments. A strong preference for Ca2+ ions in the exchange complex was observed for both soils. Generally K/Ko was found to decrease with increasing sodium adsorption ratio with the more structured Balkuling soil maintaining K/Ko for SARs 3 and 5 at an electrolyte concentration of 100 mmol/L. However measurements at the critical threshold and turbidity concentrations at a SAR of 15 revealed structural breakdown of the pore matrix system attributed to various extents of slaking, swelling, dispersion and decreases of pore radii as a result of selffiltration during leaching. These experiments illustrate the wide range of complex interactions involving clay mineralogy, solution composition and structural factors which can influence the extent of mobilization, transport and re-deposition of colloidal particles during the leaching process in soil profiles.

Particles

Dispersion

Soil absorption and adsorption

Soil chemistry

Soil moisture

Filters and filtration

Sand

Soil permeability

Particle release

Saturated hydraulic conductivity

Pore clogging

Soil water retention

Self-filtration

Pore structure

Particle size distribution

Sodium adsorption ratio

Calcium ions

Sodium ions

Breakthrough curve

Efeito da irrigação com efluente de esgoto tratado em propriedades químicas de um latossolo cultivado com cana-de-açúcar / Effects of treated sewage effluent irrigation on chemical properties of an Oxisol cultivated with sugarcane

Rafael Marques Pereira Leal

01 June 2007

Já há muito tempo, a irrigação de cultivos agrícolas é praticada e considerada uma alternativa interessante e útil à disposição dos efluentes gerados pelas estações de tratamento de esgoto doméstico. Como qualquer outro resíduo, o uso agrícola implica em algumas vantagens, tais como o fornecimento contínuo de umidade e de determinados nutrientes, mas também desvantagens, ocasionando a adição de sais e de possíveis patógenos e contaminantes orgânicos. Apesar da utilização de efluente de esgoto tratado ser parte integrante da gestão hídrica em muitos países, até o presente momento não se conhece nenhum outro estudo onde se utilizou e avaliou os efeitos do mesmo na irrigação da cultura da cana-de-açúcar em condições tropicais. Para este fim, amostras de solo foram coletadas e analisadas em 3 diferentes épocas. A irrigação se estendeu por aproximadamente 16 meses. O arranjo experimental foi o de blocos com parcelas subdivididas no tempo, com 5 tratamentos e 4 repetições. Os tratamentos empregados foram: (i) Controle sem aplicação de nitrogênio (N) mineral e sem irrigação; (ii) T100 a T200, 50% da dose de N recomendada via fertilização mineral e irrigação com, respectivamente, 100, 125, 150 e 200% da demanda hídrica da cultura. A produtividade foi, por ocasião do primeiro corte, positivamente influenciada pela irrigação com efluente secundário de esgoto tratado (ESET). Alterações na nutrição da cultura da cana foram pouco evidentes (teores foliares, colmo e caldo). O ESET ocasionou ligeira amenização tanto da acidez ativa (pH) quanto potencial (H+Al) Os efeitos mais pronunciados da irrigação ocorreram para os parâmetros indicadores da sodicidade/salinidade do solo, com incrementos significativos nas concentrações de sódio (Na) trocável, Na solúvel, percentual de sódio trocável (PST) e condutividade elétrica da solução do solo (CE). Estes aumentos, por sua vez, estão relacionados aos elevados teores de Na do efluente em associação com as baixas concentrações de cálcio (Ca) e magnésio (Mg), relação expressa pelos valores de razão de adsorção de sódio (RAS) do efluente. Alterações nas concentrações dos demais cátions também ocorreram, entretanto, foram menos características. As perspectivas quanto à utilização do ESET na irrigação da cana-de-açúcar são bastante promissoras, haja vista a crescente importância da cultura e a predominância do cultivo em condições de sequeiro. Entretanto, a manutenção da produtividade da cultura em patamares elevados implicará, necessariamente, a adoção de práticas específicas de manejo a fim de superar as limitações impostas pelos incrementos dos indicadores de salinidade e sodicidade do sistema solo-planta. / Since long ago agricultural irrigation has been practiced and considered as an interesting and beneficial alternative to the disposal of domestic sewage effluent. As all other residues, agricultural use implies both advantages, supplying crops continuously with water and some needed nutrients, and also disadvantages, through addition of salts and possible pathogens and organic contaminants. Although domestic sewage effluent is part of an integrated water management on many countries, none similar research is known involving sugarcane irrigation in tropical conditions. Three soil sampling campaigns were conducted. Soil samples were analyzed for quantifying acidity and exchangeable cations. Irrigation was applied for approximately 16 months. The experimental design was composed of a complete block, with five treatments and four replicates. Applied treatments where: (i) Control-no irrigation and no mineral-N applied; (ii)T100-T200, addition of 50% of the recommended mineral-N fertilization and irrigation with 100%, 125%, 150% and 200% of the crop water demand, respectively. Plant yield was positively affected by secondary-treated sewage effluent (STSE) irrigation. A small amelioration of the actual and potential soil acidity was observed for the highest dose of irrigation. The dominant effect of irrigation corresponded to increased concentrations of salinity-sodicity indicators, such as exchangeable sodium (Na), soluble Na, sodium saturation (ESP) and electrical conductivity of soil solution (EC). These increments are related to high Na concentrations for the applied effluent together with low calcium (Ca) and magnesium (Mg), relation expressed and defined by sodium adsorption ratio (SAR). Changes for other exchangeable cations also occurred, although not as clear and defined as for Na. Perspectives for STSE irrigation for sugarcane are promising, considering the growing importance of sugarcane crop and the very low cultivated area that is actually irrigated in the São Paulo State. However, the maintenance of crop productivity at high levels will necessarily imply the adoption of specific management practices suitable for ameliorating the limitations imposed by increasing salinity-sodicity parameters of the soil-plant system.

Cana-de-açúcar

Efluentes

Irrigação localizada

Química do solo

Reuso da água

Solo salino-sódico

Localized Irrigation

Saline-sodic Soils

Soil chemistry

Sugarcane

Wastewater

Water Reuse

Influência da cobertura vegetal na ciclagem de nutrientes via solução do solo na região de Manaus - AM. / Influence of vegetation cover on nutrient cycling in soil solution at the area of Manaus – AM.

Vania Neu

25 February 2005

A pesquisa teve como objetivo contribuir para a sustentabilidade das formas de uso dos solos na Amazônia central, avaliando a influência da cobertura vegetal nos teores de nutrientes na solução do solo, ou seja, nos teores de cátions, ânions e carbono orgânico dissolvido (COD). Tomou-se como referência uma floresta primária, para comparação com áreas degradada, de reflorestamento, e de floresta secundária. O estudo foi realizado nos municípios de Manaus e Presidente Figueiredo, AM. Em cada área foram instalados extratores de tensão, nas profundidades de 10, 20, 50, 100 e 150 cm, para as coletas de solução de solo para análise da fase inorgânica, e nas profundidades 20 e 100 cm, para a fase orgânica. A coleta de solo para análise química foi realizada nas mesmas profundidades utilizadas para as coletas de solução do solo da fase inorgânica. As coletas de solução do solo e a quantificação da água da chuva foram realizadas ao longo de um ano hidrológico, seguindo a sazonalidade do clima regional, durante os anos de 2002 e 2003. Após a coleta, filtragem e preservação, as amostras foram encaminhadas ao laboratório para a determinação das concentrações de cátions e ânions por cromatografia líquida (Equipamento Dionex, modelo DX500). As concentrações de COD foram determinadas por combustão, com detecção do CO2 gerado nesta por infra vermelho não-dispersivo (Equipamento Shimadzu, modelo TOC 5000A). A maioria dos solos foi classificada como latossolos, muito ácidos, intemperizados e com baixa disponibilidade de nutrientes. Dos cátions presentes na solução do solo observou-se a predominância sódica-potássica, com grande influência dos aportes atmosféricos. Em relação aos ânions, a predominância foi de bicarbonato e cloreto, com grande contribuição da atividade biológica nas concentrações de bicarbonato em áreas cobertas por vegetação, e do aporte atmosférico nas concentrações de cloreto nas áreas sem cobertura vegetal. A vegetação apresentou forte influência na dinâmica dos íons, principalmente para nitrogênio, fósforo, potássio e magnésio, que apresentam como principal fontes a reciclagem da matéria orgânica e a transprecipitação. Na área degradada ocorreu predominância de cloreto e sódio, elementos que apresentam como principal fonte de entrada a precipitação. Na floresta secundária e no reflorestamento observou-se sinais de recuperação, com níveis mais elevados de nutrientes do que observado na área degradada, com destaque para aumentos significativos de COD e nitrato. Não somente a vegetação afetou a dinâmica dos íons avaliados, mas também a textura do solo, acidez, profundidade e precipitação. Para o carbono orgânico dissolvido observou-se enriquecimento à 100 cm de profundidade, provavelmente em função dos menores teores de ferro e alumínio em profundidade no solo. Este aumento em profundidade pode estar indicando uma ligação entre os sistemas terrestre e aquático, na qual o primeiro funciona como possível exportador de carbono para o segundo. / The main objective of this study was to contribute for the sustainability of land use in the central Amazon, evaluating the influence of vegetation cover on nutrient concentrations in soil solution that is, on the amounts of cations, anions and dissolved organic carbon (DOC). Using a primary forest as reference, we compared these concentrations with those in a degraded area, in a reforestation and also in a secondary forest. The study was conducted in the counties of Manaus and Presidente Figueiredo. In each site we collected soil solution using tension lysimeters installed at the depths of 10, 20, 50, 100 and 150 cm for the inorganic phase and at 20 and 100 cm for the analysis of the organic phase. The soil itself was also collected at the same depths used for the study of the inorganic phase of soil solution, to determine its structure and chemical composition. Soil solution and precipitation were collected during a hydrological year, following the regional climate seasonality in the years of 2002 and 2003. After sampling, filtering and preserving in the field, soil solution samples were sent to the laboratory for the determination of cation and anion concentrations by liquid chromatography (Dionex, DX500) and DOC concentrations in a total organic carbon analyzer (Shimadzu, TOC5000A). Most of the soils were classified as Oxisols, very acid, highly weathered and with low nutrient availability. Sodium and potassium were the most predominant cations in soil solution, due to the influence of the atmospheric inputs. For anions, bicarbonate and chloride were showed the highest concentrations. At the sites covered with vegetation, biological activity played an important role in bicarbonate concentrations, as opposed to the site without vegetation, in which chloride was predominant, due to atmospheric inputs. There was a good correlation between vegetation cover and the dynamics of nitrogen, phosphorus, potassium and magnesium, all of which have as the main source recycling of organic matter recycling and throughfall. At the degraded area, chloride and sodium predominated, due to their main source, which is the precipitation. At the secondary forest and the reforestation there are indicators of the recovery of pristine conditions, whit higher levels of nutrients than those of the degraded area, specially significant increases in DOC and nitrate concentrations. Not only the vegetation influenced the dynamics of these nutrients in soil solution, but also soil texture, acidity, soil depth and precipitation. DOC, for example, showed significant increases in concentrations at 1m depths, probably due to the lowest iron and aluminum concentrations at these soil depths. This increase of DOC with depth may indicate an important connection between terrestrial and aquatic ecosystem, with the acting as an exporter of C to the rivers of the region.

ciclagem de nutrientes

cobertura vegetal

degradação ambiental

ecossistema

fertilidade do solo

física do solo

floresta

química do solo

reflorestamento

ecosystem

environmental degradation

forest

nutrients cycling

reforestation

soil chemistry

soil fertility

soil physics

vegetation cover

Atributos físico-químicos em argissolos tratados com vinhaça por 25 anos no Estado de Alagoas / Physico-chemical properties of argisols treated with vinasse for 25 years in the state of Alagoas, Brazil.

Silva, Cícero Alexandre

12 July 2013

The sugarcane is a raw material which after industrialization originates derivatives, like sugar and alcohol, extremely important for the country economical income. The process of fermentation of the broth and posterior distillation originate alcohol and vinasse. The last was earlier considered as a pollutant, however, nowadays it is carefully used for the improvement of biological, physical and chemical properties of the soil. The present work aims to evaluating, in laboratory, the modifications and displacements of some physical and chemical attributes in two clayish soils that had received vinasse for more than 25 years, in the factories Marituba (UMA) and Sto Antonio (USA), in the sugar cane region of Alagoas state, Brazil. The soil samples were collected in five layers (0-10, 10-20, 20-40, 40-70 and 70-100 cm) of depth, using the factorial [(2) plant (2) +vinasse (+v)/ -vinasse (-v) - (5) layers], 22x5 totalizing twenty treatments with four repetitions. From the results, it was noticed that vinasse promoted significant alterations in the soil, in accordance with the variance analysis (ANAVA), for with 0,01 of probability for test F, the attributes: pH, P, K+, Ca2++Mg2+, Total Organic Matter in Soil (OMS), Water Soluble Carbon (WSC), Potassium Saturation in the Cation Exchange Capacity (CEC) and porosity, The variables Soil Density (SD) and clay had presented significant differences, 0,05 level of probability and sands had been non-significant (NS). For the changeable layers in the profile of the ground, the parameters that had significance in 1% were; pH, P, K+, Ca2++Mg2+, OMS, WSC, CEC, sands and porosity, while the variable CEC and SD had been non-significant (NS). In the interaction of vinasse with layers the parameters that had significant differences for F test 0,01 were P, K+, Ca2++Mg2+, MOS, CTC, DS, % K+ CTC and sands, with significant difference of 0,05 for pH, CSA and clay. In the interaction of vinasse with layers, the differences 0,01 had been for P, Ca2++Mg2+, OMS, WCS, and % K+ CTC, of 0,05 of probability, the variables CTC and DS presented significant differences, already pH, K+, CEC, sands, clay and porosity had been NS. Comparing the averages among areas with and without vinasse, for the test of Tukey 0,05, have average higher for layers of the area that received vinasse: pH, P, K+, Ca2++Mg2+, WCS, SD and % K+ CTC. They had been similar for CEC and sands, however, in the area that did not receive vinasse, OMS, clay and porosity had presented higher values. The data obtained in this study indicate that the addition of vinasse was beneficial to the soil and therefore it is recommended to maintain its use, on the comparison between the benefit and the damage it can cause stillage. / A cana-de-açúcar é a matéria prima que depois de industrializada origina vários derivados, tendo como principais o açúcar e o álcool. Após o processo de fermentação do caldo e posterior destilação, originam-se o álcool e a vinhaça. Essa, que antes era considerada poluente, atualmente é utilizada, com zelo, para a melhoria das propriedades biológicas, físicas e químicas do solo. O presente trabalho visou avaliar, em laboratório, as modificações e deslocamentos de alguns atributos físicos e químicos em dois Argissolos que recebem vinhaça há mais de 25 anos, nas usinas Marituba (UMA) e Sto Antonio (USA), localizadas na região canavieira de Alagoas, Brasil. Foram utilizadas amostras de solos coletadas em cinco camadas (0-10, 10-20, 20-40, 40-70 e 70-100 cm) do perfil do solo, em que se aplicou o fatorial 22x5 [(2)usinas-(2) com vinhaça (CV) e sem vinhaça (SV)-(5)camadas], totalizando vinte tratamentos com quatro repetições. Pelos resultados, se observou que a vinhaça promoveu alterações significativas no solo. Os atributos: pH, P, K+, Ca2++Mg2+, Matéria Orgânica do Solo (MOS), Carbono Solúvel em Água (CSA), percentagem de potássio trocável na capacidade de troca de cátions em (%KCTC) e porosidade apresentaram diferenças significativas a 0,01 de probabilidade pelo teste F. As variáveis, densidade do solo (DS) e argila, apresentaram diferenças significativas a 0,05 de probabilidade e capacidade de troca de cátions (CTC) e areias foram não significativas (NS). Para as variáveis do solo houve significância a 0,01 para: pH, P, K+, Ca2++Mg2+, MOS, CSA, CTC, areias e porosidade, enquanto as variáveis % K+ CTC e DS foram NS. Na interação de vinhaça com camadas, houve diferenças significativas pelo teste F a 0,01 para P, K+, Ca2++Mg2+, MOS, CTC, DS, % K+ CTC e areias. Houve diferença significativa a 0,05 para pH, CSA e argila. Na interação de vinhaça com camadas, as diferenças a 0,01 foram para P, Ca2++Mg2+, MOS, CSA, e % K+ CTC, com 0,05 de probabilidade, as variáveis CTC e DS apresentaram diferenças significativas, já pH, K+, CTC, areia, argila e porosidade foram NS. Comparando as médias entre as áreas com e sem vinhaça, pelo teste de Tukey a 0,05, tem-se médias maiores para camadas da área que receberam vinhaça, para pH, P, K+, Ca2++Mg2+, CSA, DS e % K+ CTC. Foram semelhantes para CTC e areias, porém, na área que não recebeu vinhaça apresentaram superioridade: MOS, argila e porosidade. Os dados obtidos no presente trabalho indicam que a adição de vinhaça ao solo foi benéfica e por isso se recomenda a manutenção de seu uso, diante da comparação entre o benefício e o prejuízo que a vinhaça poderá causar.

Vinhaça

Solo - Química

Solo - Matéria orgânica

Carbono solúvel em água

Resíduo da destilação do vinho

Cana-de-açúcar - Mosto

Soil - Chemistry

Soil - Organic matter

Water-solube carbon

Waste from wine distillation

Cane sugar

Vinasse

Quantifying Global Exchanges of Methane and Carbon Monoxide Between Terrestrial Ecosystems and The Atmosphere Using Process-based Biogeochemistry Models

Licheng Liu (8771531)

02 May 2020

<p>Methane (CH₄) is the second most powerful greenhouse gas (GHG) behind carbon dioxide (CO₂), and is able to trap a large amount of long-wave radiation, leading to surface warming. Carbon monoxide (CO) plays an important role in controlling the oxidizing capacity of the atmosphere by reacting with OH radicals that affect atmospheric CH₄ dynamics. Terrestrial ecosystems play an important role in determining the amount of these gases into the atmosphere. However, global quantifications of CH₄ emissions from wetlands and its sinks from uplands, and CO exchanges between land and the atmosphere are still fraught with large uncertainties, presenting a big challenge to interpret complex atmospheric CH₄ dynamics in recent decades. In this dissertation, I apply modeling approaches to estimate the global CH₄ and CO exchanges between land ecosystems and the atmosphere and analyze how they respond to contemporary and future climate change.</p> <p>Firstly, I develop a process-based biogeochemistry model embedded in Terrestrial Ecosystem Model (TEM) to quantify the CO exchange between soils and the atmosphere at the global scale (Chapter 2). Parameterizations were conducted by using the CO <i>in situ</i> data for eleven representative ecosystem types. The model is then extrapolated to global terrestrial ecosystems. Globally soils act as a sink of atmospheric CO. Areas near the equator, Eastern US, Europe and eastern Asia will be the largest sink regions due to their optimum soil moisture and high temperature. The annual global soil net flux of atmospheric CO is primarily controlled by air temperature, soil temperature, SOC and atmospheric CO concentrations, while its monthly variation is mainly determined by air temperature, precipitation, soil temperature and soil moisture. </p> <p>Secondly, to better quantify the global CH₄ emissions from wetlands and their uncertainties, I revise, parameterize and verify a process-based biogeochemical model for methane for various wetland ecosystems (Chapter 3). The model is then extrapolated to the global scale to quantify the uncertainty induced from four different types of uncertainty sources including parameterization, wetland type distribution, wetland area distribution and meteorological input. Spatially, the northeast US and Amazon are two hotspots of CH₄ emissions, while consumption hotspots are in the eastern US and eastern China. The relationships between both wetland emissions and upland consumption and El Niño and La Niña events are analyzed. This study highlights the need for more in situ methane flux data, more accurate wetland type and area distribution information to better constrain the model uncertainty.</p> <p>Thirdly, to further constrain the global wetland CH₄ emissions, I develop a predictive model of CH₄ emissions using an artificial neural network (ANN) approach and available field observations of CH₄ fluxes (Chapter 4). Eleven explanatory variables including three transient climate variables (precipitation, air temperature and solar radiation) and eight static soil property variables are considered in developing the ANN models. The models are then extrapolated to the global scale to estimate monthly CH₄ emissions from 1979 to 2099. Significant interannual and seasonal variations of wetland CH₄ emissions exist in the past four decades, and the emissions in this period are most sensitive to variations in solar radiation and air temperature. This study reduced the uncertainty in global CH₄ emissions from wetlands and called for better characterizing variations of wetland areas and water table position and more long-term observations of CH₄ fluxes in tropical regions.</p> <p>Finally, in order to study a new pathway of CH₄ emissions from palm tree stem, I develop a two-dimensional diffusion model. The model is optimized using field data of methane emissions from palm tree stems (Chapter 5). The model is then extrapolated to Pastaza-Marañón foreland basin (PMFB) in Peru by using a process-based biogeochemical model. To our knowledge, this is among the first efforts to quantify regional CH₄ emissions through this pathway. The estimates can be improved by considering the effects of changes in temperature, precipitation and radiation and using long-period continuous flux observations. Regional and global estimates of CH₄ emissions through this pathway can be further constrained using more accurate palm swamp classification and spatial distribution data of palm trees at the global scale.</p>

Atmospheric Sciences

Soil Science

Earth Sciences not elsewhere classified

Soil Biology

methane

carbon monoxide atmosphere

process-based biogeochemical model

Modeling

Wetland

Land atmosphere interaction

QUANTIFYING CARBON FLUXES AND ISOTOPIC SIGNATURE CHANGES ACROSS GLOBAL TERRESTRIAL ECOSYSTEMS

Youmi Oh (9179345)

29 July 2020

<p>This thesis is a collection of three research articles to quantify carbon fluxes and isotopic signature changes across global terrestrial ecosystems. Chapter 2, the first article of this thesis, focuses on the importance of an under-estimated methane soil sink for contemporary and future methane budgets in the pan-Arctic region. Methane emissions from organic-rich soils in the Arctic have been extensively studied due to their potential to increase the atmospheric methane burden as permafrost thaws. However, this methane source might have been overestimated without considering high affinity methanotrophs (HAM, methane oxidizing bacteria) recently identified in Arctic mineral soils. From this study, we find that HAM dynamics double the upland methane sink (~5.5 TgCH₄yr^-1) north of 50°N in simulations from 2000 to 2016 by integrating the dynamics of HAM and methanogens into a biogeochemistry model that includes permafrost soil organic carbon (SOC) dynamics. The increase is equivalent to at least half of the difference in net methane emissions estimated between process-based models and observation-based inversions, and the revised estimates better match site-level and regional observations. The new model projects double wetland methane emissions between 2017-2100 due to more accessible permafrost carbon. However, most of the increase in wetland emissions is offset by a concordant increase in the upland sink, leading to only an 18% increase in net methane emission (from 29 to 35 TgCH₄yr^-1). The projected net methane emissions may decrease further due to different physiological responses between HAM and methanogens in response to increasing temperature. This article was published in <i>Nature Climate Change</i> in March 2020.</p> <p>In Chapter 3, the second article of this thesis, I develop and validate the first biogeochemistry model to simulate carbon isotopic signatures (δ¹³C) of methane emitted from global wetlands, and examined the importance of the wetland carbon isotope map for studying the global methane cycle. I incorporated a carbon isotope-enabled module into an extant biogeochemistry model to mechanistically simulate the spatial and temporal variability of global wetland δ¹³C-CH₄. The new model explicitly considers isotopic fractionation during methane production, oxidation, and transport processes. I estimate a mean global wetland δ¹³C-CH₄ of -60.78‰ with its seasonal and inter-annual variability. I find that the new model matches field chamber observations 35% better in terms of root mean square estimates compared to an empirical static wetland δ¹³C-CH₄ map. The model also reasonably reproduces the regional heterogeneity of wetland δ¹³C-CH₄ in Alaska, consistent with vertical profiles of δ¹³C-CH₄ from NOAA aircraft measurements. Furthermore, I show that the latitudinal gradient of atmospheric δ¹³C-CH₄ simulated by a chemical transport model using the new wetland δ¹³C-CH₄ map reproduces the observed latitudinal gradient based on NOAA/INSTAAR global flask-air measurements. I believe this study is the first process-based biogeochemistry model to map the global distribution of wetland δ¹³C-CH₄, which will significantly help atmospheric chemistry transport models partition global methane emissions. This article is in preparation for submission to <i>Nature Geoscience</i>.</p> <p>Chapter 4 of this thesis, the third article, investigates the importance of leaf carbon allocation for seasonal leaf carbon isotopic signature changes and water use efficiency in temperate forests. Temperate deciduous trees remobilize stored carbon early in the growing season to produce new leaves and xylem vessels. The use of remobilized carbon for building leaf tissue dampens the link between environmental stomatal response and inferred intrinsic water use efficiency (iWUE) using leaf carbon isotopic signatures (δ¹³C). So far, few studies consider carbon allocation processes in interpreting leaf δ¹³C signals. To understand effects of carbon allocation on δ¹³C and iWUE estimates, we analyzed and modeled the seasonal leaf δ¹³C of four temperate deciduous species (<i>Acer saccharum, Liriodendron tulipifera, Sassafras albidum, </i>and <i>Quercus alba</i>) and compared the iWUE estimates from different methods, species, and drought conditions. At the start of the growing season, leaf δ¹³C values were more enriched, due to remobilized carbon during leaf-out. The bias towards enriched leaf δ¹³C values explains the higher iWUE from leaf isotopic methods compared with iWUE from leaf gas exchange measurements. I further showed that the discrepancy of iWUE estimates between methods may be species-specific and drought sensitive. The use of δ¹³C of plant tissues as a proxy for stomatal response to environmental processes, through iWUE, is complicated due to carbon allocation and care must be taken when interpreting estimates to avoid proxy bias. This article is in review for publication in <i>New Phytologist</i>.</p> <p> </p>

Environmental Science

Climate Change Processes

Ecological Impacts of Climate Change

Arctic permafrost soils

Methane oxidizing bacteria

Wetlands

Global methane cycle

Leaf carbon allocation

Water use efficiency

Relationships Between Cropping Practices, Soil Quality, and Maize (Zea mays L) Yield in Morogoro Region, Tanzania

Doyle, Steven, Doyle

09 November 2018

No description available.

Soil Sciences

Agriculture

Agricultural Chemicals

Agronomy

soil

soil science

Tanzania

Africa

agriculture

development

soil quality

East Africa

Morogoro

Sokoine University of Agriculture

smallholder

on farm

maize

mixed vegetable

cowpea

cropping practice

soil structure

soil chemistry

soil physics

Wirkungen von Biokohlen im System Boden-Pflanze / Untersuchungen auf sandigen Standorten

Reibe, Katharina

06 July 2015

Die Anwendung von Biokohlen in der Landwirtschaft gewinnt durch die positiven Aspekte der Kohlenstoffsequestrierung, Bodenverbesserung und eines erhöhten Pflanzenwachstums in den letzten Jahren an Bedeutung. Deshalb geht die vorliegende Arbeit den Fragen nach, welche Wirkungen unterschiedliche Biokohlen in Kombination mit oder ohne Gärrest und / oder Stickstoffdünger auf die Bodenchemie, Bodenbiologie und Wachstum, Entwicklung, Ertrag, Ertragsstruktur, Nährstoffe sowie Qualität von Nutzpflanzen haben. Außerdem wurden die Effekte unterschiedlicher Biokohlen auf die Wurzelmorphologie von Sommerweizen quantifiziert. Eine weitere Frage war, inwiefern Biokohlen Stickstoffquellen sorbieren. Es wurden ein Feldversuch und mehrere Gefäßversuche durchgeführt, um die Änderungen der Bodenchemie, den Einfluss auf die Bodenbiologie am Beispiel von Collembolen und die Pflanzenparameter zu bestimmen. Für die Wurzeluntersuchungen wurden Rhizoboxversuche durchgeführt und zur Quantifizierung der Stickstoffsorption ein in vitro Versuch angelegt. Die Ergebnisse der Feld- und Gefäßuntersuchungen zeigten, dass die Biokohlen die Bodeneigenschaften positiv beeinflussten. Die Biokohlen nahmen keinen konsistenten Einfluss auf die Erträge von Kulturpflanzen. Die Nährstoffgehalte der Kulturpflanzen konnten zum Teil positiv beeinflusst werden. Die Collembolenabundanzen zeigten sowohl in der Feldstudie als auch im Gefäßversuch keine signifikanten Unterschiede zwischen den getesteten Biokohlen. Hohe Mengen der fermentierten HTC-Biokohle führten zu negativen Wirkungen auf die Collembolenabundanz im Gefäßversuch. Die Rhizoboxversuche zeigten einen positiven Einfluss der Pyro-Biokohle auf die oberirdische und unterirdische Trockenmasse sowie die Wurzelmorphologie von Sommerweizen. Unterschiedliche Stickstoffquellen wurden von der HTC-Biokohle stärker sorbiert als von der Pyro-Biokohle. Generell lässt sich aus den differenzierten Wirkungen der Biokohlen weitere Forschung mit dem Fokus Boden ableiten. / Over the past few years the use of biochars in agriculture has gained more importance due to positive effects on carbon sequestration, soil improvement and increased plant growth. Therefore, the present work pursues the question which effects different biochars have in combination with or without digestate and / or nitrogen fertilizer on soil chemistry, soil biology and growth, development, yield, yield components, nutrients and quality of crops. In addition, the effects of different biochars on root morphology of spring wheat were quantified. Further to elucidate potential mechanisms underlying biochar effects on crops it was studied how biochars sorb various nitrogen sources. A field test and several pot experiments were conducted to determine the changes in soil chemistry, the impact on soil-dwelling Collembola and plant parameters. For the root studies rhizobox experiments were performed. To quantify the nitrogen sorption of biochars an in vitro experiment was conducted. The results of the field test and pot experiments showed that biochars positively affected soil chemical characteristics. However, yields of crops were not consistently affected by biochars. The nutrient content of crops were positively influenced to some extent. The abundance of Collembola was not significantly influenced by the biochars tested in the field study and in the pot experiment. High amounts of fermented HTC-biochar had negative effects on the abundance of Collembola in the pot experiment. Rhizobox experiments showed a positive influence of Pyro-biochar on the aboveground dry matter, belowground dry matter and root morphology (e.g. root length) of spring wheat. Amount and reversibility of nitrogen sorption was dependent on the type of biochar with HTC-biochar sorbing more nitrogen than Pyro- biochar. Generally it can be concluded that because of the different effects of biochars further research with a focus on soil is needed.

Bodenbiologie

Stickstoffdüngung

Bodenchemie

Biokohle

Pyrolyse

Hydrothermale Carbonisierung

Fermentierung

Rhizobox

Wurzelmorphologie

Stickstoffsorption

Collembolen

fermentation

nitrogen fertilization

soil biology

soil chemistry

biochar

pyrolysis

hydrothermal carbonization

rhizobox

root morphology

nitrogen sorption

collembola

39 Landwirtschaft, Garten

AR 18600

ZC 14000

ZC 15800

Indicadores de qualidade de solo e água para a avaliação do uso sustentável da microbacia hidrográfica do Rio Passo Cue, região oeste do estado do Paraná. / Soil and water quality indicators to evaluate the sustainable use of the Rio Passo Cue watershed in western Paraná.

Hudson Carlos Lissoni Leonardo

30 September 2003

O principal objetivo deste estudo foi avaliar a saúde da microbacia hidrográfica do rio Passo Cue, região oeste do estado do Paraná, por meio do uso de indicadores de qualidade de solo e água. Esse rio é afluente da margem esquerda do reservatório de Itaipu e pertence à bacia hidrográfica do Paraná III. Como indicadores de qualidade de água foram utilizadas variáveis físicas, químicas e biológicas. Para avaliação da qualidade do solo, foram analisados os atributos textura, densidade, porosidade, carbono orgânico, biomassa microbiana, respiração basal, quocientes metabólico e microbiano, macro e micronutrientes, pH e saturação por alumínio. Os indicadores que se mostraram mais eficientes foram a densidade do solo e o quociente metabólico. O solo sob plantio direto apresentou melhor qualidade física, química e biológica em relação ao cultivo mínimo sem rotação de culturas. O solo sob plantio direto apresentou melhor qualidade biológica do que o solo sob fragmento florestal. A qualidade da água na microbacia do rio Passo Cue piorou da montante para a jusante em função do seu uso agropecuário. / The main purpose of this study was to evaluate the conditions of the Passo Cue river watershed, in western Paraná, through soil and water quality indicators. The river is an affluent of the left bank of the Itaipú reservoir and is a part of the Paraná III watershed. Physical, chemical and biological variables were used as water quality indicators. To evaluate the soil quality, texture, density, porosity, organic carbon, microbial biomass, basal respiration, metabolic and microbial quotients, macro and micronutrients, pH and aluminum saturation were analyzed. The more efficient indicators were soil density and metabolic quotient. No-tillage soil showed better physical, chemical and biological quality in relationship with the minimum tillage one with no crop rotation. The soil under no tillage had better biological quality than under forest fragment. The water quality of the Passo Cue river worsened downstream in view of the agricultural use.

agricultura sustentável

bacia hidrográfica

ecologia agrícola

física do solo

microbiologia do solo

proteção ambiental

qualidade da água

química do solo

recursos naturais (conservação)

uso do solo (qualidade).

agricultural ecology

environment protetion

land use (quality).

natural resources (conservation)

soil chemistry

soil physics

sustainable agriculture

water quality

watershed

Indicadores de qualidade de solo e água para a avaliação do uso sustentável da microbacia hidrográfica do Rio Passo Cue, região oeste do estado do Paraná. / Soil and water quality indicators to evaluate the sustainable use of the Rio Passo Cue watershed in western Paraná.

Leonardo, Hudson Carlos Lissoni

30 September 2003

O principal objetivo deste estudo foi avaliar a saúde da microbacia hidrográfica do rio Passo Cue, região oeste do estado do Paraná, por meio do uso de indicadores de qualidade de solo e água. Esse rio é afluente da margem esquerda do reservatório de Itaipu e pertence à bacia hidrográfica do Paraná III. Como indicadores de qualidade de água foram utilizadas variáveis físicas, químicas e biológicas. Para avaliação da qualidade do solo, foram analisados os atributos textura, densidade, porosidade, carbono orgânico, biomassa microbiana, respiração basal, quocientes metabólico e microbiano, macro e micronutrientes, pH e saturação por alumínio. Os indicadores que se mostraram mais eficientes foram a densidade do solo e o quociente metabólico. O solo sob plantio direto apresentou melhor qualidade física, química e biológica em relação ao cultivo mínimo sem rotação de culturas. O solo sob plantio direto apresentou melhor qualidade biológica do que o solo sob fragmento florestal. A qualidade da água na microbacia do rio Passo Cue piorou da montante para a jusante em função do seu uso agropecuário. / The main purpose of this study was to evaluate the conditions of the Passo Cue river watershed, in western Paraná, through soil and water quality indicators. The river is an affluent of the left bank of the Itaipú reservoir and is a part of the Paraná III watershed. Physical, chemical and biological variables were used as water quality indicators. To evaluate the soil quality, texture, density, porosity, organic carbon, microbial biomass, basal respiration, metabolic and microbial quotients, macro and micronutrients, pH and aluminum saturation were analyzed. The more efficient indicators were soil density and metabolic quotient. No-tillage soil showed better physical, chemical and biological quality in relationship with the minimum tillage one with no crop rotation. The soil under no tillage had better biological quality than under forest fragment. The water quality of the Passo Cue river worsened downstream in view of the agricultural use.

agricultura sustentável

agricultural ecology

bacia hidrográfica

ecologia agrícola

environment protetion

física do solo

land use (quality).

microbiologia do solo

natural resources (conservation)

proteção ambiental

qualidade da água

química do solo

recursos naturais (conservação)

soil chemistry

soil physics

sustainable agriculture

uso do solo (qualidade).

water quality

watershed