S. M. Adams and G. S. Soreghan, A test of the efficacy of sand saltation for silt production: Implications for the interpretation of loess: Geology, v, vol.48, 2020.

N. Ahmad, . Vertisols, L. P. Wilding, N. E. Smeck, and G. F. Hall, Pedogenesis and Soil Taxonomy II: The Soil Orders, pp.70614-70621, 1983.

A. M. Assallay, C. D. Rogers, I. J. Smalley, J. , and I. F. , Silt: 2-62 ?m: Earth-Science Reviews, vol.45, p.35, 1998.

J. F. Becq-giraudon and J. Van-den-driessche, Dépôts périglaciaires dans le Stephano-Autunien du Massif Central: Témoin de l'effondrement gravitaire d'un haut plateau Hercynien: Comptes Rendus de l'Academie des Sciences, vol.318, pp.675-682, 1994.

J. F. Becq-giraudon, C. Montenat, and J. Van-den-driessche, Hercynian high-altitude phenomena in the French Massif Central: Tectonic implications: Palaeogeography, Palaeoclimatology, Palaeoecology, vol.122, p.81, 1996.

H. Blatt, Provenance determination and the recycling of sediments, Journal of Sedimentary Petrology, vol.37, pp.1031-1044, 1967.

H. Blatt, Oxygen isotopes and the origin of quartz, Journal of Sedimentary Petrology, vol.57, pp.373-377, 1987.

H. Blatt, Flux of siliciclastic grains in sediments: Journal of Geological Education, vol.37, pp.243-249, 1989.

L. Borrelli, F. Perri, S. Critelli, and G. Gulla, Characterization of granitoid and gneissic weathering profiles of the Mucone River basin, Catena, v. 113, pp.325-340, 2014.

G. S. Boulton, Boulder shapes and grain-size distributions of debris as indicators of transport paths through a glacier and till genesis: Sedimentology, v. 25, pp.773-799, 1978.

R. Brewer, Fabric and Mineral Analysis of Soils, vol.482, 1976.

C. S. Bristow and T. H. Moller, Testing the auto-abrasion hypothesis for dust production using diatomite dune sediments from the Bodélé depression in Chad: Sedimentology, vol.65, pp.1322-1330, 2018.

K. Bryan, Glacial versus desert origin of loess: American, Journal of Science, vol.243, pp.245-246, 1945.

J. E. Bullard, G. H. Mctainsh, and C. Pudmenzky, Aeolian abrasion and modes of fine particle production from natural red dune sands: An experimental study: Sedimentology, v. 51, pp.1103-1125, 2004.

J. P. Burg, J. Van-den-driessche, and J. P. Brun, Synto post-thickening extension in the Variscan belt of Western Europe; modes and structural consequences: Comptes Rendus de l'Academie des Sciences Paris, vol.319, pp.1019-1032, 1994.

H. Chamley, Clay Sedimentology: New York, Springer-Verlag, 623 p, 1989.

M. A. Chan, Triassic loessite of north-central Utah: Stratigraphy, petrophysical character, and paleoclimate implications, Journal of Sedimentary Research, vol.69, pp.477-485, 1999.

M. A. Chan and A. W. Archer, Extreme Depositional Environments: Mega End Members in Geologic Time: Geological Society of, America Special Paper, vol.370, pp.1-4, 2003.

Y. Copard, J. R. Disnar, J. F. Becq-giraudon, and M. Boussafir, Evidence and effects of fluid circulation on organic matter in intramontane coalfields, International Journal of Coal Geology, vol.44, p.49, 2000.
URL : https://hal.archives-ouvertes.fr/hal-00091231

T. J. Crowley, S. K. Baum, and W. T. Hyde, Climate model comparison of Gondwanan and Laurentide glaciations, Journal of Geophysical Research, pp.9217-9226, 1991.

Y. Dewolf, Stratified slope deposits, Advances in Periglacial Geomorphology, pp.91-110, 1988.

W. R. Dickinson, Interpreting detrital modes of graywacke and arkose, Journal of Sedimentary Petrology, vol.40, pp.695-707, 1970.

M. Domeier and T. H. Torsvik, Plate tectonics in the late Paleozoic: Geoscience Frontiers, vol.5, pp.303-350, 2014.

S. G. Driese and J. L. Foreman, Paleopedology and paleoclimatic implications of late Ordovician Vertic paleosols, Journal of Sedimentary Petrology, vol.62, issue.1, pp.71-83, 1992.

D. A. Evans, A fundamental Precambrian-Phanerozoic shift in Earth's glacial style?: Tectonophysics, v. 375, pp.345-352, 2003.

M. E. Evans, Magnetostratigraphy of the Lodève Basin, France: Implications for the Permo-Carboniferous reversed superchron and the geocentric axial dipole: Studia Geophysica et Geodaetica, vol.56, pp.725-734, 2012.

G. Feulner, Formation of most of our coal brought Earth close to global glaciation, Proceedings of the National Academy of Sciences of the United States of America, vol.26, pp.1-5, 2017.

F. Fluteau, J. Besse, J. Broutin, and G. Ramstein, The Late Permian climate. What can be inferred from climate modelling concerning Pangea scenarios and Hercynian range altitude?: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 167, pp.39-71, 2001.

T. M. Foster, G. S. Soreghan, M. J. Soreghan, K. C. Benison, and R. D. Elmore, Climatic and paleogeographic significance of eolian sediment in the Middle Permian Dog Creek Shale (midcontinent, Palaeogeography, vol.402, pp.12-29, 2014.

S. Gallet, B. Jahn, B. V. Lano, A. Dia, and E. Rossello, Loess geochemistry and its implications for particle origin and composition of the upper continental crust: Earth and Planetary Science Letters, v, vol.156, pp.218-223, 1998.

G. Gand, J. Garric, and J. Lapeyrie, Biocénoses à Triopsidés (Crustacea, Branchiopoda) du Permien du bassin de Lodève (France): Geobios, v. 30, p.80157, 1997.

E. Garzanti, The maturity myth in sedimentology and provenance analysis, Journal of Sedimentary Research, vol.87, pp.353-365, 2017.

J. M. Giles, M. J. Soreghan, K. C. Benison, G. S. Soreghan, S. T. Hasiotis et al., Lakes, loess, and paleosols in the Permian Wellington Formation of Oklahoma, USA: Implications for paleoclimate and paleogeography of the midcontinent, Journal of Sedimentary Research, vol.83, issue.2, pp.31786-31791, 1979.

M. Grangeon, Observations sur la sedimentation Houillere: Bulletin de la Société Géologique de France, v. S7-II, pp.630-650, 1960.

M. B. Gray and R. P. Nickelsen, Pedogenic slickensides, indicators of strain and deformation processes in redbed sequences of the Appalachian foreland: Geology, vol.17, pp.72-75, 1989.

L. P. Gromet, R. F. Dymek, L. A. Haskin, and R. L. Korotev, North American shale composite: Its compilation, major and trace element characteristics: Geochimica et Cosmochimica Acta, v. 48, pp.90298-90307, 1984.

N. Hatano, K. Yoshida, and E. Sasao, Effects of grain size on the chemical weathering index: A case study of Neogene fluvial sediments in southwest Japan: Sedimentary Geology, vol.386, pp.1-8, 2019.

N. Hübner, F. Körner, and J. Schneider, Tectonics, climate and facies of the Saint Affrique Basin and correlation with the Lodève Basin, German Journal of Geology, vol.162, issue.2, pp.157-170, 2011.

X. Jia, Y. Li, W. , and H. , Bed sediment particle size characteristics and its sources implication in the desert reach of the Yellow River: Environmental Earth Sciences, vol.75, p.950, 2016.

S. J. Johansen, Origins of Upper Paleozoic quartzose sandstones, American Southwest: Sedimentary Geology, vol.56, issue.88, pp.90052-90060, 1988.

M. R. Johnson, Thin section grain size analysis revisited: Sedimentology, v. 41, pp.985-999, 1994.

S. Johnson, The significance of loessite in the Maroon Formation (Middle Pennsylvanian to Lower Permian), Journal of Sedimentary Petrology, vol.59, pp.789-791, 1989.

Y. J. Joo, M. E. Madden, and G. S. Soreghan, Anomalously low chemical weathering in fluvial sediment of a tropical watershed, Geology, v, vol.46, pp.691-694, 2018.

A. Julien, Ancient glaciers de la periode Houillere dans le plateau central de la France: Annuaire du Club Alpin Français, vol.21, pp.1-28, 1895.

G. R. Keller and R. D. Hatcher, Some comparisons of the structure and evolution of the southern Appalachian-Ouachita orogen and portions of the Trans-European suture zone region: Tectonophysics, vol.314, p.236, 1999.

J. L. Kessler, G. S. Soreghan, and H. J. Wacker, Equatorial aridity in western Pangea: Lower Permian loessite and dolomitic paleosols in northeastern New Mexico: Journal of Sedimentary Research, vol.71, pp.818-833, 2001.

I. Koren, Y. J. Kaufman, R. Washington, M. C. Todd, Y. Rudich et al., The Bodélé depression: A single spot in the Sahara that provides most of the mineral dust to the Amazon forest: Environmental Research Letters, pp.1-5, 2006.

F. Körner, Klima-und Sedimentationsmuster des peri-tethyalen, kontinentalen Perms-Interdisziplinäre Studien an redbeds des Lodève Beckens, vol.261, 2006.

F. Körner, J. W. Schneider, S. Hoernes, G. Gand, and R. Kleeburg, Climate and continental sedimentation in the Permian of the Lodève Basin (southern France, Late Paleozoic to Early Mesozoic Events of Mediterranean Europe, and Additional Regional Reports: Bolletino della Società Geologica Italiana Volume Speciale, vol.2, pp.185-191, 2003.

P. H. Kuenen, Experimental abrasion: Fluviatile action on sand, American Journal of Science, vol.257, pp.172-190, 1959.

P. H. Kuenen, Origin of quartz silt, Journal of Sedimentary Petrology, pp.1631-1633, 1969.

T. F. Lawton, J. E. Ruiz-urena, L. A. Solari, C. T. Terrazas, E. Juárez-arriaga et al., Provenance of Upper Triassic-Middle Jurassic strata of the Plomosas uplift, east-central Chihuahua, Mexico, and possible sedimentologic connections with Colorado Plateau depositional systems, Tectonics, Sedimentary Basins, and Provenance: A Celebration of the Career of William R, vol.540, pp.481-508, 2018.

C. J. Lepre, Constraints on Fe-oxide formation in monsoonal Vertisols of Pliocene Kenya using rock magnetism and spectroscopy, Geochemistry Geophysics Geosystems, vol.20, pp.4998-5013, 2019.

J. Li, Z. Song, L. Ruan, L. Yang, L. Van-zwieten et al., The contribution of Asian dust in the pedogenesis of Ultisols in southeastern China determined by soil grain size, Journal of Soils and Sediments, vol.19, pp.232-240, 2019.

L. Li, J. Chen, Y. Chen, D. W. Hedding, T. Li et al., Uranium isotopic constraints on the provenance of dust on the Chinese Loess Plateau: Geology, vol.46, pp.747-750, 2018.

C. Liu, A. Masuda, A. Okada, S. Yabuki, and F. Zi-li, Isotope geochemistry of Quaternary deposits from the arid lands in northern China: Earth and Planetary Science Letters, v, vol.127, pp.90195-90198, 1994.

T. S. Liu, Loess in China II: Berlin, vol.224, 1988.

M. Lopez, G. Grand, J. Garric, F. Körner, and J. Schneider, The playa environments of the Lodève Permian basin, Journal of Iberian Geology, vol.34, issue.1, pp.29-56, 2008.

G. H. Mack and P. A. Dinterman, Depositional environments and paleogeography of the Lower Permian (Leonardian) Yeso and correlative formations in New Mexico: The Mountain Geologist, pp.75-88, 2002.

G. H. Mack, W. C. James, and H. C. Monger, Classification of paleosols, vol.105, pp.129-136, 1993.

J. Malavieille, P. Guihot, S. Costa, J. M. Lardeaux, and V. Gardien, Collapse of the thickened Variscan crust in the French Massif Central: Mont Pilat extensional shear zone and Saint-Étienne Upper Carboniferous basin: Tectonophysics, v, vol.177, p.90278, 1990.

P. Matte, Tectonics and plate tectonic models for the Variscan belt of Europe: Tectonophysics, v. 126, pp.90237-90241, 1986.

G. Ménard and P. Molnar, Collapse of a Hercynian Tibetan Plateau into a late Palaeozoic European Basin and Range province: Nature, v. 334, pp.235-237, 1988.

L. A. Michel, Petrographic, Petrologic, and Isotopic Study of Paleosol Carbonates from the Permo-Pennsylvanian Lodève Basin, vol.253, 2009.

L. Michel, N. Tabor, I. Montañez, M. Schmitz, and V. Davydov, Chronostratigraphy and paleoclimatology of the Lodève Basin, France: Evidence for a pan-tropical aridification event across the Carboniferous-Permian boundary: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 430, pp.118-131, 2015.

L. Michel, M. Schmitz, N. Tabor, I. Montañez, and V. Davydov, Reply to the comment on "Chronostratigraphy and paleoclimatology of the Lodève Basin, France: Evidence for a pan-tropical Aridification event across the Carboniferous-Permian boundary, Palaeogeography, Palaeoclimatology, Palaeoecology, vol.441, pp.1000-1004, 2015.

A. J. Moss, P. Green, and J. Hutka, Static breakage of granitic detritus by ice and water in comparison with breakage by flowing water: Sedimentology, v. 28, pp.261-272, 1981.

D. R. Muhs, Loess deposits, origins and properties, Encyclopedia of Quaternary Science, vol.3, pp.1405-1418, 2007.

D. R. Muhs, Loess and its geomorphic, stratigraphic, and paleoclimatic significance in the Quaternary, Treatise on Geomorphology, vol.11, pp.149-183, 2013.

D. R. Muhs, The geochemistry of loess: Asian and North American deposits compared, Journal of Asian Earth Sciences, vol.155, pp.81-115, 2018.

D. R. Muhs and E. A. Bettis, Quaternary loess-paleosol sequences as an example of climatic extremes, Extreme Depositional Environments: Mega End Members in Geologic Time, vol.370, pp.53-74, 2003.

D. R. Muhs, J. P. Mcgeehin, J. Beann, and E. Fisher, Holocene loess deposition and soil formation as competing processes, vol.61, pp.265-276, 2004.

K. Murphy, Eolian Origin of Upper Paleozoic Red Siltstones at Mexican Hat and Dark Canyon, p.127, 1987.

G. Muttoni and D. V. Kent, Adria as promontory of Africa and its conceptual role in the Tethys Twist and Pangea B to Pangea A transformation in the Permian: Rivista Italiana di Paleontogia e Stratigrafia, vol.125, pp.249-269, 2019.

D. Nahon and R. Trompette, Origin of siltstones; glacial grinding versus weathering: Sedimentology, v. 29, pp.25-35, 1982.

H. W. Nesbitt, Y. , and G. M. , Early Proterozoic climates and plate motions inferred from major element chemistry of lutites: Nature, v. 299, pp.715-717, 1982.

H. W. Nesbitt, Y. , and G. M. , Petrogenesis of sediments in the absence of chemical weathering: Effects of abrasion and sorting on bulk composition and mineralogy: Sedimentology, v. 43, pp.341-358, 1996.

W. D. Nettleton and J. R. Sleeman, Morphology of Vertisols, Soil Micromorphology and Soil Classification, vol.15, pp.165-196, 1985.

B. Odin, Les Formations Permiennes, Autunien Supérieur à Thuringienne, du Bassin de Lodève, vol.392, 1986.

J. Parrish, Climate of the supercontinent Pangea: Chicago Journals, vol.101, pp.215-233, 1993.

L. S. Pfeifer, G. S. Soreghan, S. Pochat, J. Van-den-driessche, and S. N. Thomson, Permian exhumation of the Montagne Noire core complex recorded in the Graissessac-Lodève Basin, France: Basin Research, v. 30, pp.1-14, 2016.

S. Pochat and J. Van-den-driessche, Filling sequence in late Paleozoic continental basins: A chimera of climate change? A new light shed given by the Graissessac-Lodève basin, Palaeogeography, Palaeoclimatology, Palaeoecology, vol.302, pp.170-186, 2011.

S. Pochat, J. Van-den-driessche, L. A. Michel, N. J. Tabor, I. P. Montañez et al., Chronostratigraphy and paleoclimatology of the Lodève Basin, France: Evidence for a pan-tropical aridification event across the Carboniferous-Permian boundary, Palaeogeography, Palaeoclimatology, Palaeoecology, vol.430, pp.118-131, 2015.

S. Pochat, J. Van-den-driessche, V. Mouton, and F. Guillocheau, Identification of Permian paleowind direction from wave-dominated lacustrine sediments, Sedimentology, vol.52, pp.809-825, 2005.

S. C. Porter, Chinese loess record of monsoon climate during the last glacial-interglacial cycle, Earth-Science Reviews, vol.54, pp.43-48, 2001.

S. C. Porter, A. , and Z. , Correlation between climate events in the North Atlantic and China during the last glaciation: Nature, v. 375, pp.305-308, 1995.

J. R. Price and M. A. Velbel, Chemical weathering indices applied to weathering profiles developed on heterogeneous felsic metamorphic parent rocks: Chemical Geology, vol.202, pp.397-416, 2003.

K. Pye, Aeolian Dust and Dust Deposits, vol.334, 1987.

K. Pye and J. Mazzullo, Effects of tropical weathering on quartz grain shape: An example from northeastern Australia, Journal of Sedimentary Research, vol.64, pp.500-507, 1994.

A. Quast, J. Hoefs, P. , and J. , Pedogenic carbonates as a proxy for palaeo-CO 2 in the Palaeozoic atmosphere: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 242, pp.110-125, 2006.

C. Rasmussen, S. Brantley, D. B. Richter, A. Blum, J. Dixon et al., Strong climate and tectonic control on plagioclase weathering in granitic terrain: Earth and Planetary Science Letters, vol.301, pp.521-530, 2011.

G. J. Retallack, Soils of the Past: An Introduction to Paleopedology, 2001.

M. Roscher and J. Schneider, Permo-Carboniferous climate: Early Pennsylvanian to Late Permian climate development of central Europe in a regional and global context, London] Special Publication, vol.265, pp.95-136, 2006.

R. Sabrier, J. Delfaud, F. Causse, R. Marocco, and N. Toutin-morin, Utilisation des associations de minéraux argileux pour la reconstitution des paléotopographies: Mégatoposéquence actuelle d'Equateur, Orogène pyrénéen à l' Oligo-miocène, vol.53, pp.13-26, 1993.

D. L. Sahagian and A. A. Proussevitch, 3D particle size distribution from 2D observations: Stereology for natural applications: Journal of Volcanology and Geothermal Research, vol.84, pp.43-45, 1998.

J. Schneider, F. Körner, M. Roscher, and U. Kroner, Permian climate development in the northern peri-Tethys area: The Lodève Basin, pp.161-183, 2006.

J. W. Schneider, S. G. Lucas, R. Werneburg, and R. Rößler, Euramerican late Pennsylvanian/Early Permian arthropleurid/tetrapod associations-Implications for the habitat and paleobiology of the largest terrestrial arthropod, New Mexico Museum of Natural History and Science Bulletin, vol.49, pp.49-70, 2010.

J. W. Schneider, S. G. Lucas, F. Scholze, S. Voigt, L. Marchetti et al., Late Paleozoic-early Mesozoic continental biostratigraphy-Links to the Standard Global Chronostratigraphic Scale: Palaeoworld, 2019.

N. D. Sheldon and N. J. Tabor, Quantitative paleoenvironmental and paleoclimatic reconstruction using paleosols, Earth Science Reviews, vol.95, issue.1-52, 2009.

I. J. Smalley, Possible formation mechanisms for the modal coarse silt quartz particles in loess: Quaternary International, pp.90035-90038, 1990.

I. J. Smalley, Making the material; the formation of silt-sized primary mineral particles for loess deposits, Quaternary Science Reviews, pp.46-47, 1995.

I. J. Smalley and D. H. Krinsley, Loess deposits associated with deserts: Catena, p.80006, 1978.

I. J. Smalley and C. Vita-finzi, The formation of fine particles in sandy deserts and the nature of 'desert' loess, Journal of Sedimentary Petrology, vol.38, pp.768-774, 1968.

I. J. Smalley, R. Kumar, K. O. Dhand, I. F. Jefferson, and R. D. Evans, The formation of silt material for terrestrial sediments: Particularly loess and dust: Sedimentary Geology, v. 179, pp.321-328, 2005.

I. J. Smalley, J. Marshall, K. Fitzsimmons, W. B. Whalley, and S. Ngambi, Desert loess: A selection of relevant topics: Geologos, vol.25, pp.91-102, 2019.

B. J. Smith, J. S. Wright, and W. B. Whalley, Sources of non-glacial, loess-size quartz silt and the origins of "desert loess, Earth-Science Reviews, vol.59, pp.66-67, 2002.

R. M. Smith and R. Swart, Changing fluvial environments and vertebrate taphonomy in response to climatic drying in a mid-Triassic rift valley fill: The Omingonde Formation (Karoo Supergroup) of central Namibia: Palaios, v, vol.17, pp.249-267, 2002.

G. S. Soreghan, M. J. Soreghan, and M. A. Hamilton, Origin and significance of loess in late Paleozoic western Pangaea: A record of tropical cold: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 268, pp.234-259, 2008.

G. S. Soreghan, M. J. Soreghan, C. J. Poulsen, R. A. Young, D. E. Sweet et al., Anomalous cold in Pangaean tropics: Geology, v. 36, pp.659-662, 2008.

G. S. Soreghan, M. J. Soreghan, D. E. Sweet, and K. D. Moore, Hot fan or cold outwash? Hypothesized proglacial deposition in the Upper Paleozoic Cutler Formation, western tropical Pangea, Journal of Sedimentary Research, vol.79, pp.495-522, 2009.

G. S. Soreghan, D. E. Sweet, and N. G. Heavens, Upland glaciation in tropical Pangaea: Geologic evidence and implications for late Paleozoic climate modeling: The Journal of Geology, vol.122, pp.137-163, 2014.

G. S. Soreghan, Y. J. Joo, M. E. Madden, and S. C. Van-deventer, Silt production as a function of climate and lithology under simulated comminution: Quaternary International, v. 399, pp.218-227, 2016.

G. S. Soreghan, M. J. Soreghan, and N. G. Heavens, Explosive volcanism as a key driver of the late Paleozoic ice age: Geology, vol.47, pp.600-604, 2019.

M. J. Soreghan and P. Francus, Processing backscattered electron digital images of thin section, Image Analysis, Sediments and Paleoenvironments: Berlin, pp.203-225, 2004.

M. J. Soreghan and G. S. Soreghan, Whole-rock geochemistry of Upper Paleozoic loessite, western Pangea: Implications for paleo-atmospheric circulation: Earth and Planetary Science Letters, v. 255, pp.117-132, 2007.

M. J. Soreghan, G. S. Soreghan, and M. A. Hamilton, Paleowinds inferred from detrital zircon geochronology of Upper Paleozoic loessite, western equatorial Pangea: Geology, v. 30, vol.2, pp.695-698, 2002.

M. J. Soreghan, N. Heavens, G. S. Soreghan, P. K. Link, and M. A. Hamilton, Abrupt and high-magnitude changes in atmospheric circulation recorded in the Permian Maroon Formation, tropical Pangea: Geological Society of America Bulletin, vol.126, pp.569-584, 2014.

T. Stevens, A. Carter, T. P. Watson, P. Vermeesch, S. Ando et al., Quaternary Science Reviews, vol.78, pp.355-368, 2013.

J. B. Stuut, I. J. Smalley, O. 'hara-dhand, and K. , Aeolian dust in Europe: African sources and European deposits: Quaternary International, v. 198, pp.234-245, 2009.

A. C. Sweet, L. S. Soreghan, D. E. Sweet, M. J. Soreghan, and A. S. Madden, Permian dust in Oklahoma: Source and origin for middle Permian (Flowerpot-Blaine) redbeds in western tropical Pangaea: Sedimentary Geology, v. 284-285, pp.181-196, 2013.

D. E. Sweet and G. S. Soreghan, Polygonal cracking in coarse clastics records cold temperatures in the equatorial Fountain Formation (Pennsylvanian-Permian, Palaeogeography, Palaeoclimatology, Palaeoecology, vol.268, pp.193-204, 2008.

N. Swet, T. Elperin, J. F. Kok, R. L. Martin, H. Yizhaq et al., Can active sands generate dust particles by wind-induced processes?: Earth and Planetary Science Letters, v. 506, pp.371-380, 2019.

N. J. Tabor and T. S. Myers, Paleosols as indicators of paleoenvironment and paleoclimate: Annual Review of Earth and Planetary Sciences, vol.43, pp.333-363, 2015.

N. J. Tabor and C. J. Poulsen, Paleoclimate across the late Pennsylvanian-Early Permian tropical palaeolatitudes: A review of climate indicators, their distribution, and relation to palaeophysiographic climate factors: Palaeogeography, Palaeoclimatology, Palaeoecology, v. 268, pp.293-310, 2008.

S. R. Taylor and S. M. Mclennan, The Continental Crust; Its Composition and Evolution: An Examination of the Geochemical Record Preserved in Sedimentary Rocks, vol.312, 1985.

S. R. Taylor, S. M. Mclennan, and M. T. Mcculloch, Geochemistry of loess, continental crustal composition and crustal model ages: Geochimica et Cosmochimica Acta, vol.47, pp.90206-90211, 1983.

M. N. Tijani, O. A. Okunlola, and A. F. Abimbola, Lithogenic concentrations of trace metals in soils and saprolites over crystalline basement rocks: A case study from SW Nigeria, Journal of African Earth Sciences, vol.46, issue.5, pp.427-438, 2006.

K. L. Tramp, G. S. Soreghan, and R. D. Elmore, Paleoclimatic inferences from paleopedology and magnetism of the Permian Maroon Formation loessite, vol.116, pp.671-686, 2004.

H. Tsoar and K. Pye, Dust transport and the question of desert loess formation: Sedimentology, v. 34, pp.139-153, 1987.

J. Van-den-driessche and J. P. Brun, Un modèle cinématique de l'extension paleozoique superieur dans le sud du Massif Central: Comptes Rendus de l'Academie des Sciences Paris, vol.309, pp.1607-1613, 1989.

G. Varga, J. Kovacs, Z. Szalai, C. Cserhati, and G. Ujvari, Granulometric characterization of paleosols in loess series by automated static image analysis: Sedimentary Geology, vol.370, pp.1-14, 2018.

W. B. Whalley, B. J. Smith, J. J. Mcalister, and A. J. Edwards, Aeolian abrasion of quartz particles and the production of silt-size fragments: Preliminary results in, Desert Sediments: Ancient and Modern, vol.35, pp.129-138, 1987.

G. P. Whitmore, K. A. Crook, J. , and D. P. , Grain size control of mineralogy and geochemistry in modern river sediment, Sedimentary Geology, vol.171, pp.129-157, 2004.

A. Wilkins, A. Hurst, M. Wilson, and S. Archer, Palaeo-environment in an ancient low-latitude, arid lacustrine basin with loessite: The Smith Bank Formation (Early Triassic) in the central North Sea, UK continental shelf: Sedimentology, v. 65, pp.335-359, 2018.

M. J. Wilson, A. Hurst, A. D. Wilkins, L. Wilson, and L. Bowen, Mineralogical evidence for multiple dust sources in an early Triassic loessite: Sedimentology, v. 67, pp.239-260, 2019.

J. Wright, Desert" loess versus "glacial" loess: Quartz silt formation, source areas and sediment pathways in the formation of loess deposits: Geomorphology, vol.36, p.60, 2001.

J. Wright, Granitoid weathering profiles as a source of loessic silt: Transactions of the Japanese Geomorphological Union, vol.23, pp.769-793, 2002.

J. Wright, An overview of the role of weathering in the production of quartz silt: Sedimentary Geology, vol.202, pp.337-351, 2007.

J. Wright and B. Smith, Fluvial comminution and the production of loess-sized quartz silt: A simulation study: Geografiska Annaler, Ser. A, Physical Geography, vol.75, pp.25-34, 1993.

J. Wright, B. Smith, and B. Whalley, Mechanisms of loess-sized quartz silt production and their relative effectiveness: Laboratory simulations: Geomorphology, pp.84-90, 1998.

J. Xiao, S. C. Porter, Z. An, H. Kumai, and S. Yoshikawa, Grain size of quartz as an indicator of winter monsoon strength on the Loess Plateau of central China during the last 130,000 yr: Quaternary Research, vol.43, pp.22-29, 1995.

J. Yang, P. A. Cawood, Y. Du, W. Li, Y. et al., Reconstructing Early Permian tropical climates from chemical weathering indices, vol.128, pp.739-751, 2016.

A. M. Ziegler, C. R. Scotese, W. S. Mckerrow, M. E. Johnson, and R. K. Bambach, Paleozoic paleogeography: Annual Review of Earth and Planetary Sciences, pp.473-502, 1979.

P. A. Ziegler, Geodynamic processes govern development of rifted basins, Geodynamic Evolution of Sedimentary Basins, pp.19-67, 1996.

, Revised Manuscript Received, vol.24, 2020.

, Manuscript Accepted, vol.21, 2020.