Your search keyword '"L. Aldega"' showing total 16 results

1. Structural characterization and K–Ar illite dating of reactivated, complex and heterogeneous fault zones: lessons from the Zuccale Fault, Northern Apennines

Author

G. Viola, G. Musumeci, F. Mazzarini, L. Tavazzani, M. Curzi, E. Torgersen, R. van der Lelij, and L. Aldega

Subjects

Geology, QE1-996.5, Stratigraphy, QE640-699

Abstract

We studied the Zuccale Fault (ZF) on Elba, part of the Northern Apennines, to unravel the complex deformation history that is responsible for the remarkable architectural complexity of the fault. The ZF is characterized by a patchwork of at least six distinct, now tightly juxtaposed brittle structural facies (BSF), i.e. volumes of deformed rock characterized by a given fault rock type, texture, colour, composition, and age of formation. ZF fault rocks vary from massive cataclasite to foliated ultracataclasite, from clay-rich gouge to highly sheared talc phyllonite. Understanding the current spatial juxtaposition of these BSFs requires tight constraints on their age of formation during the ZF lifespan to integrate current fault geometries and characteristics over the time dimension of faulting. We present new K–Ar gouge dates obtained from three samples from two different BSFs. Two top-to-the-east foliated gouge and talc phyllonite samples document faulting in the Aquitanian (ca. 22 Ma), constraining east-vergent shearing along the ZF already in the earliest Miocene. A third sample constrains later faulting along the exclusively brittle, flat-lying principal slip surface to < ca. 5 Ma. The new structural and geochronological results reveal an unexpectedly long faulting history spanning a ca. 20 Myr time interval in the framework of the evolution of the Northern Apennines. The current fault architecture is highly heterogeneous as it formed at very different times under different conditions during this prolonged history. We propose that the ZF started as an Aquitanian thrust that then became selectively reactivated by early Pliocene out-of-sequence thrusting during the progressive structuring of the Northern Apennine wedge. These results require the critical analysis of existing geodynamic models and call for alternative scenarios of continuous convergence between the late Oligocene and the early Pliocene with a major intervening phase of extension in the middle Miocene allowing for the isostatic re-equilibration of the Northern Apennine wedge. Extension started again in the Pliocene and is still active in the innermost portion of the Northern Apennines. In general terms, long-lived, mature faults can be very architecturally complex. Their unravelling, including understanding the dynamic evolution of their mechanical properties, requires a multidisciplinary approach combining detailed structural analyses with dating the deformation events recorded by the complex internal architecture, which is a phenomenal archive of faulting and faulting conditions through time and space.

Published

2022

2. From Fossil to Active Hydrothermal Outflow in the Back‐Arc of the Central Apennines (Zannone Island, Italy)

Author

M. Curzi, A. Caracausi, F. Rossetti, A. Rabiee, A. Billi, E. Carminati, L. Aldega, S. M. Bernasconi, C. Boschi, K. Drivenes, A. L. Rizzo, and B. E. Sørensen

Subjects

mineralizations, fluid‐rock interaction, hydrothermal system, magmatic fluids, fluid mixing, ore minerals, Geophysics. Cosmic physics, QC801-809, Geology, QE1-996.5

Abstract

Abstract Post‐orogenic back‐arc magmatism is accompanied by hydrothermal ore deposits and mineralizations derived from mantle and crustal sources. We investigate Zannone Island (ZI), back‐arc Tyrrhenian basin, Italy, to define the source(s) of mineralizing hydrothermal fluids and their relationships with the regional petrological‐tectonic setting. On ZI, early Miocene thrusting was overprinted by late Miocene post‐orogenic extension and related hydrothermal alteration. Since active submarine hydrothermal outflow is reported close to the island, Zannone provides an ideal site to determine the P‐T‐X evolution of the long‐lived hydrothermal system. We combined field work with microstructural analyses on syn‐tectonic quartz veins and carbonate mineralizations, X‐ray diffraction analysis, microthermometry and element mapping of fluid inclusions (FIs), C, O, and clumped isotopes, and analyses of noble gases (He‐Ne‐Ar) and CO2 content in FIs. Our results document the evolution of a fluid system of magmatic origin with increasing mixing of meteoric fluids. Magmatic fluids were responsible for quartz veins precipitation at ∼125 to 150 MPa and ∼300°C–350°C. With the onset of extensional faulting, magmatic fluids progressively interacted with carbonate rocks and mixed with meteoric fluids, leading to (a) host rock alteration with associated carbonate and minor ore mineral precipitation, (b) progressive fluid neutralization, (c) cooling of the hydrothermal system (from ∼320°C to ∼86°C), and (d) embrittlement and fracturing of the host rocks. Both quartz and carbonate mineralizations show noble gases values lower than those from the adjacent active volcanic areas and submarine hydrothermal systems, indicating that the fossil‐to‐active hydrothermal history is associated with the emplacement of multiple magmatic intrusions.

Published

2022

3. Base Cation Mobility in Vineyard Soils of the Colli Albani Volcanic District (Central Italy)

Author

M. Gaeta, L. Aldega, M. L. Astolfi, B. Bonechi, P. Pacheco, and C. Perinelli

Subjects

alban wine, phlogopite, Soil Science, zeolites, Plant Science, Alban wine, potassic soils, clinopyroxene, volcanic soils, Colli Albani, Phlogopite, Clinopyroxene, Zeolites, Potassic soils, Agronomy and Crop Science, Volcanic soils

Abstract

The quality of the Colli Albani volcanic soils has certainly contributed to the vine cultivars hence the name of one of the oldest wines (i.e., Alban wine). The alkali up to 15 wt%, SiO2 ≤ 52 wt% and the emplacement at high temperature (≤ 600 °C) are the bedrock features that have deeply influenced the soil-forming processes in the vineyards. However, the peculiar features of the Colli Albani soils are not well known. Field survey and textural, mineralogical, and chemical data obtained with SEM, EMP, XRD, and ICP-OES were used to characterize the vineyard soils of the Colli Albani. Leucite (Lct)-bearing soils and quartz (Qz)-bearing soils occur in the studied vineyard. The Qz-bearing soils represent more weathered volcanic material, depleted in primary minerals and enriched in clays, which show a lower cation exchange capacity (CEC) than the Lct-bearing soils. CEC is a misleading definition for the Colli Albani soils because the base cation mobility in the vineyard is independent from clay mineral enrichment in the soil. Actually, the release of K, Na, Ca, and Mg depends by (i) the complete dissolution of leucite and analcime, (ii) the oxy-reaction affecting the phlogopite, which releases K + Mg, and (iii) the incongruent dissolution of clinopyroxene characterized by the “gothic texture.” This texture highlights the capacity of clinopyroxene to release Ca and Mg in volcanic soils. Quantification of the texture and abundance of the primary minerals are mandatory for the management of the vineyard soils in the Colli Albani and, in general, it is significative for the vineyards in volcanic areas.

Published

2022

4. An Integrated Structural and Magnetic Fabric Study to Constrain the Progressive Extensional Tectonics of the Rio do Peixe Basin, Brazil

Author

M. A. Nicchio, F. Balsamo, F. Cifelli, F. C. C. Nogueira, L. Aldega, F. H. R. Bezerra, D. L. Vasconcelos, and J. A. B. Souza

Subjects

Borborema province, Geophysics, intracontinental deformation, Geochemistry and Petrology, Pangea breakup, Rio do Peixe basin

Published

2022

5. rom fossil to active hydrothermal outflow in the back-arc of the central Apennines (Zannone Island, Italy)

Author

M. Curzi, A. Caracausi, F. Rossetti, A. Rabiee, A. Billi, E. Carminati, L. Aldega, S. M. Bernasconi, C. Boschi, K. Drivenes, A. L. Rizzo, B. E. Sørensen, Curzi, M., Caracausi, A., Rossetti, F., Rabiee, A., Billi, A., Carminati, E., Aldega, L., Bernasconi, S. M., Boschi, C., Drivenes, K., Rizzo, A. L., Sorensen, B. E., Curzi, M, Caracausi, A, Rossetti, F, Rabiee, A, Billi, A, Carminati, E, Aldega, L, Bernasconi, S, Boschi, C, Drivenes, K, Rizzo, A, and Sorensen, B

Subjects

fluid mixing, ore minerals, Geophysics, fluid-rock interaction, hydrothermal system, Geochemistry and Petrology, mineralizations, magmatic fluids, ore mineral, mineralization, magmatic fluid

Abstract

Post-orogenic back-arc magmatism is accompanied by hydrothermal ore deposits and mineralizations derived from mantle and crustal sources. We investigate Zannone Island (ZI), back-arc Tyrrhenian basin, Italy, to define the source(s) of mineralizing hydrothermal fluids and their relationships with the regional petrological-tectonic setting. On ZI, early Miocene thrusting was overprinted by late Miocene post-orogenic extension and related hydrothermal alteration. Since active submarine hydrothermal outflow is reported close to the island, Zannone provides an ideal site to determine the P-T-X evolution of the long-lived hydrothermal system. We combined field work with microstructural analyses on syn-tectonic quartz veins and carbonate mineralizations, X-ray diffraction analysis, microthermometry and element mapping of fluid inclusions (FIs), C, O, and clumped isotopes, and analyses of noble gases (He-Ne-Ar) and CO2 content in FIs. Our results document the evolution of a fluid system of magmatic origin with increasing mixing of meteoric fluids. Magmatic fluids were responsible for quartz veins precipitation at similar to 125 to 150 MPa and similar to 300 degrees C-350 degrees C. With the onset of extensional faulting, magmatic fluids progressively interacted with carbonate rocks and mixed with meteoric fluids, leading to (a) host rock alteration with associated carbonate and minor ore mineral precipitation, (b) progressive fluid neutralization, (c) cooling of the hydrothermal system (from similar to 320 degrees C to similar to 86 degrees C), and (d) embrittlement and fracturing of the host rocks. Both quartz and carbonate mineralizations show noble gases values lower than those from the adjacent active volcanic areas and submarine hydrothermal systems, indicating that the fossil-to-active hydrothermal history is associated with the emplacement of multiple magmatic intrusions., Geochemistry, Geophysics, Geosystems, 23 (10), ISSN:1525-2027

Published

2022

6. Structural control of gas migration pathways in the hydrocarbon-rich Val d’Agri basin (Southern Apennines, Italy)

Author

S.E. Beaubien, G. Schirripa Spagnolo, R.M. Ridolfi, L. Aldega, I. Antoncecchi, S. Bigi, A. Billi, and E. Carminati

Subjects

hydrocarbon leak, Geophysics, Val d’Agri, soil gas, Methane, Radon, faults, Stratigraphy, Economic Geology, Geology, Oceanography

Published

2023

7. What steers the 'folding to faulting' transition in carbonate-dominated seismic fold-and-thrust belts? New insights from the Eastern Southern Alps (Northern Italy)

Author

C. Zuccari, G. Viola, M. Curzi, L. Aldega, G. Vignaroli, Zuccari C., Viola G., Curzi M., Aldega L., and Vignaroli G.

Subjects

folding-faulting transition, carbonate multilayers, Eastern Southern Alps, Carbonate multilayer, seismic vs. aseismic, seismic behaviour, mechanical stratigraphy, Geology, Eastern Southern Alp

Abstract

Several parameters steer the modes of shortening of carbonate-dominated fold-and-thrust belts from incipient- (layer parallel shortening, buckle folds) to evolved deformation stages (verging folds, discrete thrusts). In this study, we address the spatial and temporal evolution of contractional structures within carbonate-dominated fold-and-thrust belts by documenting the geometry, kinematics and structural architecture of the San Donato-Costa Thrust Zone, a splay of the regional Belluno Thrust of the seismically active Eastern Southern Alps (Northern Italy). Deformation is there accommodated by a variety of features ranging from open and upright to tight and verging folds cut by later thrusts. An integrated structural analysis indicates inherited primary features to have effectively steered the deformation style of the thrust and its immediate hanging wall and footwall. We propose an evolving deformation scenario initially governed by the inherited lithological features and localised pressure solution, then by the geometry of folds accommodating progressive shortening and, finally, by thrusting. The folding-faulting transition occurs when fold forelimbs dip ∼80° and the ratio between the dip angle of fore- and back limbs becomes ∼3.3. These geometric boundary conditions control the mechanical behaviour of carbonate multilayer successions during orogenic shortening in fold-and-thrust belts, assisting the partitioning between seismic and aseismic deformation.

Published

2022

8. Soils developed on the Si-poor, alkali-rich pyroclastic rocks of the Colli Albani volcanic district (Central Italy). The effect of leucite, clinopyroxene and phlogopite on the base cations mobility

Author

M. Gaeta, L. Aldega, M.L. Astolfi, B. Bonechi, F. Marra, P. Pacheco, C. Perinelli, and F. Tiberi

Subjects

Colli Albani, Geochemistry and Petrology, Phlogopite, gothic texture, Clinopyroxene, volcanic soils, Environmental Chemistry, Halloysite, Pollution

Published

2022

9. Frictional controls on the seismogenic zone: Insights from the Apenninic basement, Central Italy

Author

G. Volpe, G. Pozzi, E. Carminati, M.R. Barchi, M.M. Scuderi, E. Tinti, L. Aldega, C. Marone, and C. Collettini

Subjects

Geophysics, earthquakes, rheology, friction, structural heterogeneities, basement, seismogenic regime, Space and Planetary Science, Geochemistry and Petrology, Earth and Planetary Sciences (miscellaneous)

10. Reconstruction of maximum burial along the Northern Apennines thrust wedge (Italy) by indicators of thermal exposure and modeling

Author

Chiara Caricchi, Luca Aldega, Sveva Corrado, C., Caricchi, L., Aldega, and Corrado, Sveva

Subjects

mixed-layer illite-smectite, northern Apennines, thermal maturity, vitrinite reflectance, thermal modeling, Lineament, Geochemistry, Geology, Thrust, engineering.material, Wedge (geometry), Diagenesis, Tectonics, Illite, engineering, Clay minerals, Foreland basin, Geomorphology

Abstract

A new data set of temperature-dependent clay mineral parameters and vitrinite reflectance of the Tuscan successions in the Northern Apennines (Italy) displays decreasing levels of thermal maturity from hinterland to foreland, and abrupt changes parallel to the strike of the chain which are structurally controlled by northeast-southwest–trending faults (e.g., Marecchia valley lineament). To the southeast of the Marecchia valley lineament, paleothermal indicators show deep diagenetic conditions in the hinterland and early diagenetic conditions in the foreland (R o % ranges from 0.80% to 0.30%; illite content in mixed-layer illite-smectite [I-S] from 86% to 38%). To the northwest of the Marecchia valley lineament, in the hinterland, R o % is up to 0.95% and mixed-layer I-S have an illite content of ~87%–88%, both gradually decreasing toward the northeast (to R o % of 0.33%, and illite in I-S of 50%). Thermal models allowed us to constrain the geometry of the Miocene thrust wedge with special regard to the original thickness and distribution of its allochthonous uppermost structural unit (Ligurian unit) across northeast-southwest–trending tectonic lineaments. The thickness of the Ligurian unit ranges from 1 to 1.5 km to the south of the Marecchia valley lineament, to 3 km to the north-northwest. This tectonic lineament affected wedge geometry, amounts of tectonic transport, and thickness of the uppermost structural unit, and, possibly, Neogene–Quaternary levels of exhumation.

Published

2015

11. Deformation and fluid flow during orogeny at the palaeo-Pacific active margin of Gondwana: the Early Palaeozoic Robertson Bay accretionary complex (north Victoria Land, Antarctica)

Author

ROSSETTI, FEDERICO, TECCE F, ALDEGA L, BRILLI M. FACCENNA C., Rossetti, Federico, F., Tecce, L., Aldega, Faccenna, Claudio, Tecce, F, Aldega, L, and Brilli, M. FACCENNA C.

Abstract

Structural investigations, integrated with X-ray diffraction, fluid inclusion microthermometry and oxygen-stable isotope analyses are used to reconstruct the deformation history and the palaeo-fluid circulation during formation of the low-grade, turbidite-dominated Early Palaeozoic Robertson Bay accretionary complex of north Victoria Land (Antarctica). Evidence for progressive deformation is elucidated by analysing the textural fabric of chronologically distinct, thrust-related quartz vein generations, incrementally developed during progressive shortening and thickening of the Robertson Bay accretionary complex. Our data attest that orogenic deformation was mainly controlled by dissolution–precipitation creep, modulated by stress- and strain-rate-dependent fluid pressure cycling, associated with local and regional permeability variations induced by the distribution and evolution of the fracture network during regional thrusting. Fracture-related fluid pathways constituted efficient conduits for episodic fluid flow. The dominant migrating fluid was pre-to-syn-folding and associated with the migration of warm (160–200 C) nitrogen- and carbonic (CO2 and CH4)-bearing fluids. Both fluid advection and diffusive mass transfer are recognized as operative mechanisms for fluid–rock interaction and vein formation during continuous shortening. In particular, fluid–rock interaction was the consequence of dissolution–precipitation creep assisted by tectonically driven cooling fluids moving through the rock section as a result of seismic pumping. The most likely source of the migrating fluids would be the frontal part of the growing accretionary complex, where fluids from the deep levels in the hinterland are driven trough channelization operated by the thrust-related fracture (fault) systems.

Published

2006

12. A combined integrated multi-method approach for the assessment of the thermal maturity of sedimentary basins

Author

L Di Paolo, Domenico Grigo, Luca Aldega, Danilo Di Genova, Claudia Romano, Sveva Corrado, Di Paolo, L., Corrado, Sveva, Romano, Claudia, L., Aldega, D., Di Genova, and D., Grigo

Subjects

geography, geography.geographical_feature_category, Materials science, Mineralogy, Multi method, Sedimentary basin

Abstract

The reliable assessment of thermal maturity of sedimentary successions is crucial for the evaluation of hydrocarbon generation/expulsion. Uncertainties in thermal maturity assessment up to 0.2-0.3% of vitrinite reflectance values can occur according to commonly adopted parameters (eg., vitrinite reflectance, Tmax, etc.) especially when exploring Lower Paleozoic shale gas targets that are devoid of vitrinite macerals. This level of uncertainties is not acceptable in thermal modelling and can negatively influence decisions on the development of prospects. This contribution provides a new methodological workflow to assess thermal maturity of organic matter dispersed in sediments and hosting sedimentary succession to largely reduce such uncertainties. The multi-method approach consists in combining optical analysis and Raman and FTIR spectroscopy of organic matter dispersed in sediments with X-ray diffraction of the inorganic fine-grained fraction of sedimentary successions. The four techniques have been systematically compared in diagenesis for the first time. Results are from an about 3000 m deep Cretaceous-Silurian section that shows a regular and highly resolved trend of increasing thermal maturity with depth on the base of spectroscopic and XRD data, and a general agreement among vitrinite reflectance, FTIR quantitative and qualitative indexes, pyrolysis and Raman indexes. Levels of thermal maturity of dispersed organic matter range from immature-early mature stages of hydrocarbon generation in the Cretaceous-Jurassic section to mid-late mature in the Triassic and Silurian units. Moreover, fine grained sedimentary rocks record an increasing trend of thermal maturity from early diagenesis in the Cretaceous-Jurassic section to late diagenesis for the Triassic and Silurian sections.

13. Carbonate precipitation and phosphate trapping by microbialite isolates from an alkaline insular lake (Bagno dell'Acqua, Pantelleria Island, Italy).

Author

Mazzoni C, Piacentini A, Di Bella L, Aldega L, Perinelli C, Conte AM, Ingrassia M, Ruspandini T, Bonfanti A, Caraba B, Falese FG, Chiocci FL, and Fazi S

Abstract

The Bagno dell'Acqua lake is characterized by CO 2 emissions, alkaline waters (pH = 9) and Eh values which indicate strongly oxidizing conditions. A typical feature of the lake is the presence of actively growing microbialites rich in calcium carbonates and silica precipitates. Mineralogy, petrography and morphology analyses of the microbialites were coupled with the analysis of the microbial community, combining molecular and cultivation approaches. The DNA sequencing revealed distinct patterns of microbial diversity, showing pronounced differences between emerged and submerged microbialite, with the upper layer of emerged samples exhibiting the most distinctive composition, both in terms of prokaryotes and eukaryotes. In particular, the most representative phyla in the microbial community were Proteobacteria, Actinobacteriota, and Bacteroidota, while Cyanobacteria were present only with an average of 5%, with the highest concentration in the submerged intermediate layer (12%). The role of microorganisms in carbonate mineral formation was clearly demonstrated as most of the isolates were able to precipitate calcium carbonate and five of them were characterized at molecular level. Interestingly, when microbial isolates were cultivated only in filtered water, the precipitation of hazenite was observed (up to 85%), opening new prospective in P (phosphate) recovery from P depleted environments., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2024 Mazzoni, Piacentini, Di Bella, Aldega, Perinelli, Conte, Ingrassia, Ruspandini, Bonfanti, Caraba, Falese, Chiocci and Fazi.)

Published

2024

14. Early Stages of Metal Corrosion in Coastal Archaeological Sites: Effects of Chemical Composition in Silver and Copper Alloys.

Author

Boccaccini F, Riccucci C, Messina E, Pascucci M, Bosi F, Aldega L, Ciccola A, Postorino P, Favero G, Ingo GM, and Di Carlo G

Abstract

In this study, metal disks with different chemical composition (two Ag-based alloys and three Cu-based alloys) were buried in the soil of coastal archaeological sites for a period of 15 years. The aim was to naturally induce the growth of corrosion patinas to obtain a deeper insight into the role of alloying elements in the formation of the patinas and into the degradation mechanisms occurring in the very early stages of burial. To reach the aim, the morphological, compositional and structural features of the patinas grown over 15 years were extensively characterized by optical microscopy, field emission scanning electron microscopy coupled with energy dispersive spectrometry, X-ray diffraction and micro-Raman spectroscopy. Results showed that the Cu amount in Ag-based alloys strongly affected the final appearance, as well as the composition and structure of the patinas. Corrosion mechanisms typical of archaeological finds, such as the selective dissolution of Cu, Pb and Zn and internal oxidation of Sn, occurred in the Cu-based alloys, even if areas enriched in Zn and Pb compounds were also detected and attributed to an early stage of degradation. In addition, some unusual and rare compounds were detected in the patinas developed on the Cu-based disks.

Published

2024

15. A strength inversion origin for non-volcanic tremor.

Author

Vannucchi P, Clarke A, de Montserrat A, Ougier-Simonin A, Aldega L, and Morgan JP

Abstract

Non-volcanic tremor is a particularly enigmatic form of seismic activity. In its most studied subduction zone setting, tremor typically occurs within the plate interface at or near the shallow and deep edges of the interseismically locked zone. Detailed seismic observations have shown that tremor is composed of repeating small low-frequency earthquakes, often accompanied by very-low-frequency earthquakes, all involving shear failure and slip. However, low-frequency earthquakes and very-low-frequency earthquakes within each cluster show nearly constant source durations for all observed magnitudes, which implies characteristic tremor sub-event sources of near-constant size. Here we integrate geological observations and geomechanical lab measurements on heterogeneous rock assemblages representative of the shallow tremor region offshore the Middle America Trench with numerical simulations to demonstrate that these tremor events are consistent with the seismic failure of relatively weaker blocks within a stronger matrix. In these subducting rocks, hydrothermalism has led to a strength-inversion from a weak matrix with relatively stronger blocks to a stronger matrix with embedded relatively weaker blocks. Tremor naturally occurs as the now-weaker blocks fail seismically while their surrounding matrix has not yet reached a state of general seismic failure., (© 2022. The Author(s).)

Published

2022

16. Reactions of lysine with montmorillonite at 80 degrees C: implications for optical activity, H+ transfer and lysine-montmorillonite binding.

Author

Cuadros J, Aldega L, Vetterlein J, Drickamer K, and Dubbin W

Subjects

Adsorption, Binding Sites, Circular Dichroism, Reproducibility of Results, Spectroscopy, Fourier Transform Infrared, Surface Properties, Bentonite chemistry, Hydrogen chemistry, Lysine chemistry, Temperature

Abstract

Amino acid-smectite interaction may have catalyzed prebiotic reactions essential for the emergence of life. Lysine solutions (0.05 M) were reacted with Na-smectite in adsorption-desorption experiments. The lysine-smectite complexes were heated at 80 degrees C for 10 days to investigate (1) possible slow processes taking place at surface temperature that would be accelerated at higher temperature and (2) processes taking place in hydrothermal systems. Three sets of experiments were performed: thermal treatment in closed tubes and water added regularly; thermal treatment in closed tubes without adding water; and thermal treatment in open tubes and no added water. After lysine desorption (displacement with 0.1 M CaCl(2)), the solutions were investigated using circular dichroism (CD) and the smectite samples using FTIR and CHN elemental analysis. CD spectra were dependent on the solution pH, which was controlled by lysine protonation state. The lysine protonation state was altered by the adsorption-desorption process, with a higher Lys(+)/Lys(+/-) ratio after desorption. The CD and CHN analyses show that the thermal treatment in a moist state causes stronger smectite-lysine binding. FTIR data suggest that the stronger binding is caused by more or stronger H bonds between -NH(3)(+) lysine groups and smectite basal O atoms.

Published

2009