S. T. Hasiotis and C. E. Mitchell, A comparison of crayfish burrow morphologies: Triassic and Holocene fossil, p.393, 1993.

, neo-ichnological evidence, and the identification of their burrowing signatures. Ichnos, vol.2, pp.291-314

S. T. Hasiotis and M. C. Bourke, Continental trace fossils and museum exhibits: displaying burrows as 395 organism behaviour frozen in time, Geological Curator, vol.5, pp.211-226, 2006.

A. Hildenbranda and J. L. Uraib, Investigation of the morphology of pore space in mudstones ? first results, 2003.

, Marine and Petroleum Geology, vol.20, pp.1185-1200

J. D. Howard and R. W. Frey, Characteristic trace fossils in nearshore to offshore sequences, Upper Cretaceous 399 of east-central Utah, Canadian Journal Earth Science, vol.21, 1984.

J. J. Jaeger, L. Marivaux, M. Salem, A. A. Bilal, M. Benammi et al., , p.401

E. Métais, M. Schuster, X. Valentin, and M. Brunet, , 2010.

, Talah escarpment (Sahara of central Libya): systematic, biochronological, and Palaeobiogeographical 403 implications, Zoological Journal of Linnean Society, vol.160, pp.195-213

J. J. Jaeger, K. C. Beard, Y. Chaimanee, M. J. Salem, M. Benammi et al., , p.405

. Ph, M. Schuster, X. Valentin, B. Marandat, L. Marivaux et al., Late 406 middle Eocene epoch of Libya yields earliest known radiations of African anthropoids, Nature, vol.467, pp.1095-1099, 2010.

B. Jaillard, A. Guyon, and A. F. Manrin, Structure and composition of calcified roots and their 408 identification in calcareous soils, Geoderma, vol.50, 1991.

M. A. Kessler and B. T. Werner, Self-organization of sorted patterned ground, Science, vol.299, pp.380-383, 2003.

A. Kishné, . Sz, C. L. Morgan, and W. L. Miller, Vertisol Crack Extent Associated with Gilgai and Soil, p.411, 2009.

, Moisture in the Texas Gulf Coast Prairie, Soil Science Society of America Journal, vol.73, pp.1122-1231

C. F. Klappa, Rhizoliths in terrestrial carbonates: classification, recognition, genesis, and significance: 413, Sedimentology, vol.26, pp.613-629, 1980.

I. Kovda, S. Goryachkin, M. Lebedeva, N. Chizhikova, A. Kulikov et al., , p.415, 2017.

, Vertisols in cryogenic environments of southern Siberia, vol.288, pp.184-195

M. J. Kraus, Development of potential acid sulfate paleosols in Paleocene floodplains, p.417, 1998.

U. Wyoming and P. Palaeogeography, Palaeoecology, vol.144, pp.203-224

M. J. Kraus and A. Aslan, Eocene hydromorphic paleosols: significance for interpreting ancient floodplain 419 processes, Journal of Sedimentary Petrology, vol.63, pp.453-463, 1993.

M. J. Kraus and S. T. Hasiotis, Significance of different modes of rhizolith preservation to interpreting 421 paleoenvironmental and paleohydrologic settings: examples from Paleogene paleosols, p.422, 2006.

U. S. Wyoming, Journal of Sedimentary Research, vol.76, pp.633-646

J. H. Li, L. M. Zhang, Y. Wang, and D. G. Fredlund, Permeability tensor and representative elementary 424 volume of saturated cracked soil, Canadian Geotechnical Journal, vol.46, pp.928-942, 2009.

A. Manceau, V. A. Drits, B. Lanson, D. Chateigner, . J. Wu et al., , 2000.

, Oxidation reduction mechanism of iron in dioctahedral smectites. II. Crystal chemistry of reduced Garfield 427 nontronite, American Mineralogist, vol.85, pp.153-172

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

W. L. Miller, A. S. Kishne, and C. L. Morgan, Vertisol morphology, classification, and seasonal cracking 431 patterns in the Texas Gulf coast prairie, Soil Horizons, vol.51, pp.10-16, 2010.

H. H. Moh, V. C. Chong, and A. Sasekumar, Distribution and burrow morphology of three sympatric species 433 of Thalassina mud lobsters in relation to environmental parameters on a Malayan mangrove shore, Journal of Sea, vol.434, pp.75-83, 2015.

. P. Monaco, Decapod burrows (Thalassinoides, Ophiomorpha) and crustacean remains in the Calcari 436, 2000.

L. Grigi and . Jurassic, Trento platform (Italy). 1st Workshop on Mesozoic and Tertiary decapod crustaceans 437 (VI), pp.293-301

N. H. Mondol, K. Bjorlykke, and J. Jahren, Experimental compaction of clays: relationship between 439 permeability and petrophysical properties in mudstones, Petroleum Geoscience, vol.14, pp.319-337, 2008.

R. Moussavi-harami, A. Mahboubi, M. Nadjafi, R. L. Brenner, and M. Mortazavi, Mechanism of calcrete 441 formation in the Lower Cretaceous (Neocomian) fluvial deposits, northeastern Iran based on petrographic, 442 geochemical data, Cretaceous Research, vol.30, pp.1146-1156, 2009.

J. Muller and G. Bocquier, Dissolution of kaolinites and accumulation of iron oxides in lateritic-444 ferruginous nodules: mineralogical and microstructural transformations, Geoderma, vol.37, pp.113-136, 1986.

D. Nascimento, L. Batezelli, A. Ladeira, and F. S. , The paleoecological and paleoenvironmental importance 446 of root traces: plant distribution and topographic significance of root patterns in upper cretaceous paleosols, 2019.

, Catena, vol.172, pp.789-806

C. D. Ollier, Causes of spheroidal weathering, Earth-Sciences Reviews, vol.7, pp.127-141, 1971.

M. D. Pipujol and P. Buurman, The distinction between ground-water gley and surface-water gley 450 phenomena in Tertiary Paleosols of the Ebro Basin, p.451, 1994.

, Palaeoecology, vol.110, pp.103-113

M. H. Rayhani, E. K. Yanful, and A. Fakher, Physical modeling of desiccation cracking in plastic soils, 2008.

, Engineering Geology, vol.97, pp.25-31

G. J. Retallack, Late Eocene and Oligocene paleosols from, vol.82, 1983.

S. Sadek and R. Sultan, Liesegang patterns in nature: A diverse scenery across the sciences, a review paper, vol.37, pp.1-43, 2011.

U. Schwertmann, Relations between iron oxides, soil colour, and soil formation, Journal of Soil Science, vol.459, pp.51-69, 1993.

U. Schwertmann and R. M. Taylor, Iron oxides, Minerals in Soil 461 Environments, pp.379-438, 1989.

A. Seilacher, Trace fossil analysis, vol.226, 2007.

J. J. Smith, S. T. Hasiotis, D. T. Woody, and M. J. Kraus, Paleoclimatic implications of crayfish-mediated 464 prismatic structures in paleosols of the Paleogene Willwood formation, Journal 465 of Sedimentary Research, vol.78, pp.323-334, 2008.

, Keys to Soil Taxonomy, 8th edn. US Government Printing Office, Soil Survey Staff, p.324, 1998.

A. Sridharan and M. M. Allam, Volume change behaviour of desiccated soils. Proceedings of ASCE, Journal 469 of the Geotechnical Engineering Division, vol.108, pp.1057-1071, 1982.

A. E. Thompson and W. L. Stokes, Stratigraphy of the San Rafael Group, southwest and south-central, 1970.

, Utah Geological and Mineralogical Survey Bulletin, vol.87

P. L. Veneman, M. J. Vepraskas, and J. Bouma, The physical significance of soil mottling in a Wisconsin 473 toposequence, Geoderma, vol.15, pp.103-118, 1975.

M. J. Vepraskas, Redoximorphic features for identifying aquic conditions: North Carolina Agricultural 475 Research Service, Technical Bulletin, vol.301, 1994.

Y. Wang, M. A. Chan, and E. Merino, Self-organized iron-oxide cementation geometry as an indicator of 477 paleo-flows, 2015.

A. W. Wight, Paleogene vertebrate fauna and regressive sediments of Dur At Talah, southern Sirt Basin, p.479, 1980.

. Libya, The Geology of Libya, vol.I, pp.309-325

K. Yuen, J. Graham, and P. Janzen, Weathering-induced fissuring and hydraulic conductivity in a natural 481 plastic clay, Canadian Geotechnical Journal, vol.35, pp.1101-1108, 1998.

M. Zhang and A. D. Karathanasis, Characterization of iron-manganese concretions in Kentucky alfisols with 483 perched water tables, Clays and Clay Minerals, vol.45, pp.428-439, 1997.