Biochar feedstock and pyrolysis temperature effects on leachate: DOC characteristics and nitrate losses from a Brazilian Cerrado Arenosol mixed with agricultural waste biochars.

Dissolved organic carbon (DOC) leached from Brazilian Cerrado Arenosols can lead to carbon (C) losses and lower soil fertility, while excessive nutrient, e.g. nitrate (NO3-), leaching can potentially cause water contamination. As biochar has been shown to stabilize C and retain soil nutrients, a greenhouse experiment was conducted to test different biochars' contributions to DOC and NO3- leaching from a sandy soil. Biochars were made from four local agricultural waste feedstocks (cotton residue, swine manure, eucalyptus sawmill residue, sugarcane filtercake) pyrolysed at 400, 500 and 600 °C. Biochar was mixed with soil at 5% weight in pots and maize seeds planted. Leachate was collected weekly for six weeks and analyzed for DOC and NO3- concentrations, while fluorescence spectroscopy with parallel factor analysis (PARAFAC) was used to interpret DOC characteristics. Cotton and swine manure biochar treatments had higher DOC and NO3- losses than eucalyptus biochar, filtercake biochar, and control treatments. Cotton and swine manure biochar treatments at high temperatures lost mostly terrestrial, humified DOC, while swine manure, filtercake, and eucalyptus biochars at low temperatures lost mostly labile, microbially-derived DOC. Through the practical use of fluorescence spectroscopy, our study identified filtercake and eucalyptus biochars as most promising for retaining DOC and NO3- in a Cerrado Arenosol, potentially reducing stable C and nutrient losses.

Origin of mounds in the Pantanal wetlands: An integrated approach between geomorphology, pedogenesis, ecology and soil micromorphology.

Vegetated mounds are an important geomorphological feature of the Pantanal, where the influence of floods dictates not only hydropedological processes, but also the distribution and ecology of the flora and fauna. This work aimed to identify factors and processes that influence the formation and spatial distribution of the mounds, which are commonly associated with termite activity. In order to characterize pedological processes, macro and micro morphological descriptions, satellite image interpretation, dating of the sandy sedimentary material using OSL and carbon dating using 14C AMS were carried out. This dating of the materials indicates that the sediments in which the soils were formed were deposited during the Pleistocene, while the carbonates are from the Holocene. The basin-like format of the laminar structures suggests that part of the more clayey material was deposited in lacustrine environments. The more humid climate in the Holocene intensified argilluviation, which at an advanced stage, led to a more pronounced textural gradient, reducing drainage and leading to ferrolysis and thickening of the E horizon. Besides pedogenic processes, more erosive flooding during the Holocene began reducing and rounding the landscape's more elevated structures (paleolevees). In the final stage, these structures were occupied by termites to shelter from flooding. Thereafter, the bio-cementation action of the termite nests has increased the resistance of the vegetated mounds to processes of erosion.

Biochar decreases dissolved organic carbon but not nitrate leaching in relation to vinasse application in a Brazilian sugarcane soil.

OBJECTIVES: Sugarcane cultivation is associated with catchment-wide impacts related to application of vinasse, a nutrient-dense effluent with high eutrophication potential. We evaluated the potential for biochar (charcoal produced from pyrolyzed filtercake) to mitigate carbon and nutrient leaching in a cultivated Brazilian Ferralsol after vinasse application. METHODS: Twelve soil columns (soil alone [S], soil with vinasse [SV], soil with vinasse and biochar [SVB], and soil with biochar [SB]) were flushed with water and then treated with water or vinasse. Samples collected via vacuum filtration were examined via UV-Vis and fluorescence spectroscopy. RESULTS: Biochar attenuated dissolved organic carbon (DOC) leaching in soil (S vs. SB) as well as in relation to vinasse application (SV vs. SVB). Biochar-amended soil preferentially retained high-molecular weight, humic-like DOC species, as revealed by fluorescence spectroscopy and optical indices, but did not retain low-weight amino acid-like species. Vinasse application also increased total NO3(-) flux, which may have been exacerbated by biochar co-application. CONCLUSIONS: Vinasse treatment strongly affects carbon and NO3(-) fluxes in this tropical soil. Biochar attenuated DOC leaching, likely through stabilization of complex compounds already present in soil, but did not lessen NO3(-) fluxes. Thus, biochar amendments in vinasse application areas may decrease carbon leaching.

Soil CO2 dynamics in a tree island soil of the Pantanal: the role of soil water potential.

The Pantanal is a biodiversity hotspot comprised of a mosaic of landforms that differ in vegetative assemblages and flooding dynamics. Tree islands provide refuge for terrestrial fauna during the flooding period and are particularly important to the regional ecosystem structure. Little soil CO2 research has been conducted in this region. We evaluated soil CO2 dynamics in relation to primary controlling environmental parameters (soil temperature and soil water). Soil respiration was computed using the gradient method using in situ infrared gas analyzers to directly measure CO2 concentration within the soil profile. Due to the cost of the sensors and associated equipment, this study was unreplicated. Rather, we focus on the temporal relationships between soil CO2 efflux and related environmental parameters. Soil CO2 efflux during the study averaged 3.53 µmol CO2 m⁻² s⁻¹, and was equivalent to an annual soil respiration of 1220 g C m⁻² y⁻¹. This efflux value, integrated over a year, is comparable to soil C stocks for 0-20 cm. Soil water potential was the measured parameter most strongly associated with soil CO2 concentrations, with high CO2 values observed only once soil water potential at the 10 cm depth approached zero. This relationship was exhibited across a spectrum of timescales and was found to be significant at a daily timescale across all seasons using conditional nonparametric spectral Granger causality analysis. Hydrology plays a significant role in controlling CO2 efflux from the tree island soil, with soil CO2 dynamics differing by wetting mechanism. During the wet-up period, direct precipitation infiltrates soil from above and results in pulses of CO2 efflux from soil. The annual flood arrives later, and saturates soil from below. While CO2 concentrations in soil grew very high under both wetting mechanisms, the change in soil CO2 efflux was only significant when soils were wet from above.

Atributos de solos hidromórficos no Pantanal Norte Matogrossense / Attributes of the hydromorphic soils in the Pantanal of North Matogrosso

Os solos hidromórficos, comuns na Amazônia e no Pantanal, estão sujeitos à alternância natural de períodos de alagamento e secamento, que conduzem a uma formação e características diferenciadas. Estes solos guardam estreita relação com a natureza do material de origem e com os processos de deposição e sedimentação. O objetivo neste trabalho foi avaliar as características químicas, morfológicas e mineralógicas de três perfis de solos do Pantanal Norte Matogrossense (Planossolo, Plintossolo e Gleissolo), a fim de interpretar as relações entre suas propriedades e o ambiente em que foram formados. Os Planossolos e Gleissolos possuem maior fertilidade natural, evidenciada pelos valores expressivos de CTC (capacidade de troca de cátions) e saturação por bases. Os menores teores de Fe2O3 do Planossolo estão relacionados com a redução e remoção do Fe durante sua gênese A mineralogia da fração areia dos solos é constituída principalmente de quartzo, nódulos e concreções de Fe e de Mn, e em menor grau, biotita, muscovita e traços de turmalina, magnetita, ilmenita, epídoto, zircão e rutilo. Os solos apresentaram perfil mineralógico semelhante na fração argila, constituído por caulinita, esmectita, ilita e interestratificados do tipo ilita-esmectita. A mineralogia da fração argila dos solos foi compatível com as diferenças químicas constatadas entre eles, pois o Planossolo apresentou argila de maior atividade relativa às esmectitas e interestratificados ilita/esmectita, com maior soma de bases trocáveis e CTC, enquanto o Plintossolo e o Gleissolo, cujo mineral predominante foi a caulinita, apresentaram baixo teor de bases trocáveis e menor CTC.

The hydromorphic soils, common in the Amazon and the Pantanal, are subject to alternating periods of natural flooding and drying, leading to formation and differentiated characteristics. These soils are closely related to the nature of the sediments, a consequence of the source material and the processes of deposition and sedimentation. The objective of this study was to evaluate the chemical, mineralogical, and morphological profiles of three soils in the North Brazilian Pantanal North (Solonetz, Plinthosol and Gleysol) in order to interpret the relations between their properties and the environment in which they were formed. The Solonetz and Gleysol have higher fertility, as evidenced by the significant values of CEC (cation exchange rate) and base saturation. The lowest levels of Fe2O3 in the Solonetz are related to the reduction and removal of Fe during its genesis. The mineralogy of sand fraction consists mainly of quartz, nodules and concretions of Fe and Mn and to a lesser extent, biotite, muscovite and traces of tourmaline, magnetite, ilmenite, epidote, zircon and rutile. The soil profile was similar in clay mineralogy, consisting of kaolinite, smectite, illite and interstratified illite-smectite type. The clay mineralogy of soils was consistent with the observed chemical differences between them, as the clay Planossolo showed greater activity on smectite and interstratified illite / smectite, with greater total exchangeable bases and CEC, while the Plinthosol and Gleysol, whose predominant mineral was kaolinite, showed a low content of exchangeable bases and lower CEC.

Distribuição espacial da granulometria, cor e carbono orgânico do solo ao longo de um transecto em microbacias na Amazônia meridional / Spatial distribution of soil texture, color and soil organic carbon across a headwater transect in the southern Amazon

O objetivo deste estudo foi determinar, em nível de detalhe, a distribuição e a variabilidade espacial da argila, do índice de avermelhamento e do carbono orgânico do solo, ao longo de transecto que cruza classes pedológicas distintas dentro de quatro microbacias, sob floresta tropical em Juruena (MT). Para isso, foram selecionados 34 pontos e coletadas amostras de solo nas profundidades de 0 a 20 cm e 40 a 60 cm. Os dados foram analisados por estatística descritiva e geoestatística. As maiores variabilidades espaciais ocorreram dentro da classe do Latossolo Vermelho-Amarelo Distrófico. Estes ocorrem nas elevações superiores a 280 m, enquanto os Plintossolos e Argissolos (com caráter plíntico) têm ocorrência restrita às áreas com altimetrias menores. Ao longo do transecto há maior variabilidade nos atributos índice de avermelhamento e argila; as áreas com piores condições de drenagens apresentaram menor variação espacial e menores índice de avermelhamento, isto é, maior homogeneidade da cor dos horizontes diagnósticos.

The study was conducted in forested headwater catchments near Juruena, Mato Grosso with the objective of determining the spatial distribution of soil physical characteristics including clay content, redness ratio, and soil organic carbon along a transect that encompassed distinct soil classes. Soil samples from 0-20 cm and 40-60 cm depths were collected from 34 points. Variables were analyzed using descriptive statistics and geostatistics. The parameters analyzed by ordinary kriging demonstrated that the highest spatial variability occurred within the soil class Typic Kandiustox. In the study area, Plinthustults and Ultisols (with plinthic characteristics) were only found to occur in landscape positions less than 280 m above sea level; Oxisols were found exclusively above 280 m.a.s.l. The redness ratio and clay content were the soil parameters with the highest spatial variability across the transect. Poorly drained areas (demonstrated by lower values of redness ratio) demonstrated the lowest degree of spatial variability, and correspondingly, the highest consistency of color within the diagnostic horizons.