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Sphinx water erosion hypothesis

March 03, 2023

The Sphinx water erosion hypothesis is a fringe claim, contending that the Great Sphinx of Giza and its enclosing walls eroded primarily due to ancient floods or rainfalls, attributing their creation to Plato's lost civilization of Atlantis over 11,500 years ago.[1][2]

The Great Sphinx of Giza

Egyptologists, geologists and others have rejected the water erosion hypothesis and the idea of an older Sphinx, pointing to archaeological, climatological and geological evidence to the contrary.[3][4][5][6][7][8]

History

See also: Atlantis

In the 1950s, French mystic[9][10] and alternative Egyptologist Schwaller de Lubicz speculated the body of the Sphinx to be eroded by deluges and that therefore the Sphinx must predate them, further claiming that ancient Egyptian knowledge originated from colonists or refugees of Plato's sunken continent of Atlantis.[1][2]

In 1979, Author and alternative Egyptologist John Anthony West, inspired by Schwaller's ideas, attributed the erosion to Nile floods between 15,000 and 10,000 BC. By denying the existence of any evidence for the development of Egyptian civilization prior to the first dynasty, West created room to inject the idea of a lost, advanced civilization of Atlanteans who created the Sphinx and passed on their knowledge to the dynastic Egyptians.[11]

Ten years later, West sought the opinion of geologist Robert Schoch to validate his claims. In 1990 they traveled together to Egypt, visiting the Sphinx. The following year Schoch formulated and presented his version of the hypothesis,[12] purposely avoiding the use of the word "Atlantis".[13][14] He originally estimated the Sphinx to have been created before 5000 BC, later pushing his minimum estimate further back to 9700 BC, once again aligning it with Plato's lost civilization of Atlantis.[12][15][16]

Dating the Sphinx

 
Sphinx and Sphinx Temple (right), Khafre Valley Temple with causeway running past the Sphinx (left)

Archaeological context

The Sphinx is positioned north of the lower end of the causeway of Khafre that connects his Pyramid- and Valley Temple. It was created by carving it out of the bedrock, cutting blocks from around its body which were used to construct the Sphinx Temple immediately east of the Sphinx and north of the Valley Temple, aligned to it.[17]

Evidence suggests that both the Sphinx and its temple were created only after Khafre's Valley Temple and causeway:

  • The Sphinx Temple was built on the foundation of the preexisting northern enclosure wall of the Valley Temple. This wall was entirely removed apart of a small portion, which was incorporated into the Sphinx Temple.[18]
  • Unlike the Valley Temple, both the Sphinx enclosure and the Sphinx Temple remained unfinished. The north and east walls of the enclosure are cut back unevenly and insufficiently. The Sphinx Temple lacks in height and work to fit casing blocks was only partially completed.[19] Lehner suggests that a Sphinx cult wasn't established when work ceased prematurely, hence the relative lack of cultural material from the Old Kingdom.[20][21]

Peter Lacovara, an Egyptologist and curator at the Michael C. Carlos Museum, assigns "some of the erosional features" on the enclosure walls to quarrying activities rather than weathering.[22]

Causeway

The causeway connecting Khafre's Pyramid and Valley Temple is not oriented to the cardinal directions but runs slanted. The southern wall of the Sphinx enclosure respects this orientation.

Sphinx Temple and Khafre Valley Temple

Luminescence dating of the two temples gave dates for the middle to late third millennium BC, concurring with the chronological estimates for Khafre and the 4th dynasty and the radiocarbon dates for the pyramids of Giza. Some samples indicated New Kingdom intrusions into the temples.[23] As such, the Dream Stele between the paws of the Sphinx might have been originally a door lintel of Khafre's valley or pyramid temple.

Several hieroglyphic inscriptions were found on the walls of the Khafre temples.[24] as well as several statues of Khafre or fragments thereof.[25]

Schoch argues that the casing was applied long after the core structure was built, stating that "granite facing [of the Sphinx and Valley Temple] is covering deeply weathered limestone [that was] slightly cut back and smoothed out [but not enough] to make the wall perfectly smooth".[26] Lehner responded that the limestone wasn't deeply weathered, but that it was cut back irregularly to fit the harder granite facade to it, pointing to the Menkaure Pyramid Temple where the technique can be clearly seen.[4]

Missing archaeological evidence for an earlier civilization

Mark Lehner when asked about the possibility of an earlier civilization replied "Well, it's not impossible, but it has a very, very low level of probability, that there was an older civilization there."[27] Other archaeologists who have made similar criticisms include Kenneth Feder. Feder wrote:

there is no evidence whatsoever for a culture capable of building the Great Sphinx much before the traditionally accepted date. A large and impressive monument like the Great Sphinx cannot have built itself; there must have been a social and practical infrastructure in place to accomplish that task. In other words, only a culture with a pattern of social stratification and the capability to enlist the labor of a large pool of workers would have been capable of building the Great Sphinx, and for the period predating 2500 bce, there is no evidence at all of such a culture—no complex settlements with substantial populations, no social hierarchy reflected in inequality in housing or burials. There is no sign at all of an infrastructure necessary to support a large population of workers, no sign of the ability to produce a large agricultural surplus to feed the construction workers, no evidence of dormitories for housing them, no huge storage facilities for food, no great bakeries, no cemeteries in which to bury the workers who would have died during the construction project.[28]

Erosion

 
Erosion on the front body of the Sphinx and the enclosure behind. Weathering on the head and neck was repaired in the 1920s.

Pre-Sphinx erosion

Schoch argues that the Giza Plateau is "criss crossed with fractures or joints millions of years old" and that "fissures such as those on the Sphinx enclosure wall can only be produced by water, primarily precipitation, and do bear on the age of the Sphinx."[29]

Geoscientist Jørn Christiansen agrees that at least some of the erosion took place before the Sphinx was carved. Stating that water most likely seeped through natural fissures in the limestone before the Sphinx had been carved, causing the walls of the Sphinx enclosure to look like they were carved much earlier than they really were. As such, Christiansen determined that there was no geological evidence to suggest the Sphinx was carved earlier than any other monuments on the Giza plateau.[30]

Hawass points to the poor quality of much of the Giza limestone as the basis for the significant erosion levels.[31]

Water erosion

 
Vertical weathering on the body of the Sphinx

After an investigation of the enclosure's geology, Schoch concluded that the most prominent weathering pattern was caused by prolonged and extensive rainfall, pointing to the well-developed undulating vertical profile on the enclosure walls.[12] Further stating that "many of the vertical and inclined solution features follow [preexisting] joints and faults in the bedrock", referencing the absence of such features on other rock surfaces in the Giza pyramid complex.[32] Other geologists, such as Gauri, disagreed and argued for different erosion forces or a combination of such.

Schoch contends that because the last period of significant rainfall seemingly ended between the late fourth and early 3rd millennium BC,[33] the Sphinx's construction must date to 5000 BC or earlier,[29][32][34] However, new geoarchaeological evidence suggests the occurrence of heavy rainfalls until the end of the Old Kingdom, circa 2200 BC.[5] Hawass criticizes that Schoch "never demonstrates why the rainfall over the last 4,500 years would not be sufficient to round off the corners", pointing to the many downpours at Giza over the past decades.[35]

A recent study by Rudolph Kuper and Stefan Kröpelin, of the University of Cologne suggest the change from a wet to an arid climate in the Sahara happened gradually with climate changes taking place on a north-to-south gradient. According to this study, arid conditions began in the Egyptian Sahara by 5300 BC. These desert conditions gradually extended to the south with Northern Sudan experiencing an arid climate circa 1500 BC.[36] Egyptologist Mark Lehner believes this climate change may have been responsible for the severe weathering found on the Sphinx and other sites of the 4th Dynasty. After studying sediment samples in the Nile Valley, Judith Bunbury, a geologist at the University of Cambridge, concluded that climate change in the Giza region may have begun early in the Old Kingdom, with desert sands arriving in force late in the era.[37]

Recently, Schoch pushed back his minimum estimate 5000 years further back, to around the end of the last ice age.[15][16]

Haloclasty

Due to the Sphinx lying closely above the Nile aquifer, capillary action moves water to the surface of the stone. During this process salt contained in the limestone is dissolved and drawn to the surface where it crystallises. The expanding crystals cause fine layers of surface limestone to flake off. It is accepted by Schoch et al. that this mechanism is evident in many places on the Giza Plateau. One proponent of the haloclasty process is Dr James A. Harrell of the University of Toledo, who advocates that the deep erosion crevices were caused by the haloclasty process being driven by moisture in the sand that covered the carved rock for much of the time since it was exposed by quarrying.[26] Lal Gauri et al.[38] also favour the haloclasty process to explain the erosion features, but have theorised that the weathering was driven by moisture deriving from atmospheric precipitation such as dew.

Analysis of the Sphinx's bedrock by the Getty Conservation Institute (1990–1992) concluded that "Continual salt crystallization, which has a destructive effect on the stone, would explain at least some of the deterioration of the Sphinx."[39][40]

Haloclasty is rejected as an explanation for the vertical erosion features by Schoch because it does not explain all the visible evidence, namely that the water erosion features are not evenly distributed, being concentrated in those areas that would have been particularly exposed to running water, whereas the haloclasty process should have operated evenly on all exposed limestone surfaces.[26]

Wind erosion

Schoch states that wind erosion forms distinctive horizontal bands, whereas the water erosion features are clearly vertical.[26]

Comparisons to other structures

Hawass stated that from the present-day rapid rate of erosion on the Member II surface of the Sphinx, that "[t]he eleven hundred years between Khafre and the first major restoration in the Eighteenth Dynasty, or even half this time, would have been more than enough to erode the Member II into the deep recesses behind Phase I restoration masonry".[31]

Schoch and West argued that other structures and surfaces on the Giza Plateau are made from the same band of limestone as the Sphinx enclosure, but do not show the same erosion as the walls of the Sphinx enclosure and that unspecified early dynastic mudbrick mastabas at Saqqara (close to Giza) have survived relatively undamaged, which lead them to conclude that no heavy rainfall has occurred in the region since the Early Dynastic Period.[41][42]

Reader replied to this, stating that these structures "were built on an area of high ground and do not lie within any natural catchment. These tombs will not, therefore, have been exposed to any significant run-off." He concludes that "the fact that they are not significantly degraded, as Schoch has pointed out, demonstrates that rainfall itself has not been a significant agent of degradation in Egypt."[43] Rainfall water run-off, however, has been a more significant factor. Reader cites evidence of flood water damage in another location to illustrate this.[44][45]

Lehner responded that these tombs were protected from erosion by sand and debris for most of their history, asking Schoch and West to clarify which mastabas they were referring to exactly.[4]

Head size

Various authors, like Schoch and Temple, have asserted that the head of the Sphinx is too small for its body, concluding it was recarved. Lehner argued that the head is primarily too small in relation to the length of the body, suggesting that without elongating the body the builders wouldn't have been able to complete the latter part of the Sphinx, due to a large natural fissure that cuts through the bedrock.[46]

References

  1. ^ a b "A great civilization must have preceded the vast movements of water that passed over Egypt, which leads us to assume that the Sphinx already existed, sculptured in the rock of the west cliff at Gizeh, that Sphinx whose leonine body, except for the head, shows indisputable signs of aquatic erosion." in, R. A. Schwaller de Lubicz, Sacred Science: The King of Pharaonic Theocracy (New York: Inner Traditions International, 1982. ISBN 0-89281-007-6). Originally published entitled Le Roi de la Théocratie Pharaonique (Paris: Flammarion, 1961).
  2. ^ a b West, John Anthony (1979). Serpent in the Sky.
  3. ^ "Why Sequence is Important", Lehner, Mark; Hunt, Brian V. link 26 July 2010 at the Wayback Machine
  4. ^ a b c Lehner, Mark (1994). "Notes and Photographs on the West-Schoch Sphinx Hypothesis". KMT. 5–3: 40–48.
  5. ^ a b Welc, Fabian; Marks, Leszek (2014). "Climate change at the end of the Old Kingdom in Egypt around 4200 BP: New geoarchaeological evidence". Quaternary International. 324: 124–133. Bibcode:2014QuInt.324..124W. doi:10.1016/j.quaint.2013.07.035.
  6. ^ "Sphinx Project « Ancient Egypt Research Associates". 10 September 2009. Retrieved 12 November 2021.
  7. ^ Dunford, Jane; Fletcher, Joann; French, Carole (ed., 2007). Egypt: Eyewitness Travel Guide 2009-02-18 at the Wayback Machine. London: Dorling Kindersley, 2007. ISBN 978-0-7566-2875-8.
  8. ^ Lehner 1991.
  9. ^ Wilson, Peter Lamborn (1993). Sacred Drift: Essays on the Margins of Islam. City Lights Books. p. 105. ISBN 978-0-87286-275-3.
  10. ^ Garrett G. Fagan (editor), Archaeological Fantasies: How Pseudoarchaeology Misrepresents the Past and Misleads the Public, page 251 (Routledge, 2006). ISBN 0-415-30593-4
  11. ^ West, John Anthony (1979). Serpent in the Sky. p. 213. Egyptologists postulate an indeterminate (and indeterminable) period of 'development' prior to the First Dynasty. This assumption is supported by no evidence; indeed the evidence, such as it is, appears to contradict the assumption.
  12. ^ a b c Schoch, Robert M. (1992). "Redating the Great Sphinx of Giza" in Circular Times, ed. Collette M. Dowell. Retrieved 17 December 2008.
  13. ^ Schoch, Robert. "Rising From the Ashes of SIDA".
  14. ^ Robert Schoch: Ancient Egypt, The Sphinx & The Great Flood – 2018 – 7:30
  15. ^ a b Schoch, Robert (2017). Origins of the Sphinx: Celestial Guardian of Pre-Pharaonic Civilization.
  16. ^ a b Joe Rogan Interview – Robert Schoch Explains Sphinx Water Erosion Hypothesis – 2018
  17. ^ Lehner, Mark (2017). "Who Built the Sphinx?" (PDF). Aeragram. 18–1: 2–7.
  18. ^ "Sequencing tells us which happened first". 13 October 2009.
  19. ^ Ricke, Herbert (1970). "Der Harmachistempel des Chefren in Giseh". Beiträge zur Ägyptischen Bauforschung und Altertumskunde. 10.
  20. ^ Lehner, Mark (1991). Archaeology of an Image: The Great Sphinx of Giza.
  21. ^ "Khafre's Monuments as a Unit". 13 October 2009.
  22. ^ Lacovara, Peter (2004). The Pyramids, the Sphinx: Tombs and Temples of Giza. Bunker Hill Publishing. p. 64. ISBN 978-1-59373-022-2.
  23. ^ "Surface luminescence dating of some Egyptian monuments". Journal of Cultural Heritage. 16. 2014.
  24. ^ Hölscher, Uvo (1912). Das Grabdenkmal des Königs Chephren.
  25. ^ Borchardt, Ludwig (1911). Statuen und Statuetten von Königen und Privatleuten (PDF). pp. 9–19.
  26. ^ a b c d . Robertschoch.com. Archived from the original on 19 March 2017.
  27. ^ Staff writer (1997). "How Old Are the Pyramids? Part 2". Nova Online. PBS. Retrieved 26 February 2018.
  28. ^ Kenneth L. Feder, Encyclopedia of Dubious Archaeology: From Atlantis to the Walam Olum, page 130 (Greenwood Publishing Group, 2010). ISBN 978-0-313-37918-5
  29. ^ a b Schoch, Robert M. (1995), "Response in Archaeology Magazine to Zahi Hawass and Mark Lehner" in Dowell, Colette M. (ed.). Circular Times.
  30. ^ "The Great Sphinx of Egypt: Nature's Shabby-Chic Trick?". GEO ExPro. 9 January 2015. Retrieved 26 May 2018.
  31. ^ a b Hawass, Zahi (1999). The Secrets of the Sphinx: Restoration past and present. Columbia University Press. p. 14. ISBN 978-977-424-492-6.
  32. ^ a b Schoch, Robert M. (1999–2000), "Geological Evidence pertaining to the Age of the Great Sphinx" 14 April 2009 at the Wayback Machine, in Spedicato, Emilio; Notarpietro, Adalberto (ed., 2002). New Scenarios on the Evolution of the Solar System and Consequences on History of Earth and Man, Proceedings of the Conference. Milan and Bergamo, 7–9 June 1999. Università degli Studi di Bergamo, Quaderni del Dipartmento di Matematica, Statistica, Informatica ed Applicazion, Serie Miscellanea. 3 (2002), 171–203.
  33. ^ Palaeoclimate and environment 7 June 2009 at the Wayback Machine, Fezzan Project, Climate Research Unit, Environmental Sciences, Faculty of Science, University of East Anglia. Retrieved 17 December 2008.
  34. ^ Michael Brass. . Antiquityofman.com. Archived from the original on 14 March 2009. Retrieved 26 May 2009.
  35. ^ Hawass, Zahi (1998). The Secrets of the Sphinx.
  36. ^ Kuper, Rudolph; Kröpelin, Stefan (11 August 2006). "Climate-Controlled Holocene Occupation in the Sahara: Motor of Africa's Evolution" (PDF). Science. 313 (5788): 803–807. doi:10.1126/science.1130989.
  37. ^ Haddingham, Evan "Uncovering Secrets of the Sphinx" Smithsonian magazine, February 2010 [1]
  38. ^ Gauri, K. Lal; Sinai, John J.; Bandyopadhyay, Jayanta K. (1995–04). "Geologic Weathering and Its Implications on the Age of the Sphinx", Geoarchaeology: an International Journal, 10:2 (April 1995), 119–133. ISSN 0883-6353.
  39. ^ "Newsletter 7.2 Summer 1992". getty.edu. Retrieved 26 February 2018.
  40. ^ "Getty Institute Probes Riddle of the Deteriorating Sphinx" by Kim Murphy, Los Angeles Times, 16 May 1990 [2]
  41. ^ "Redating the Great Sphinx". Robertschoch.com.
  42. ^ The Mystery of the Sphinx
  43. ^ Reader, Colin (17 March 2000). . Archived from the original on 2 June 2015. Retrieved 23 March 2014.
  44. ^ White, Chris (29 November 2012). . Ancientaliensdebunked.com. Archived from the original on 2 February 2013.
  45. ^ C. D. Reader, A Geomorphological Study of the Giza Necropolis, with Implications for the Development of the Site, Volume 43, Issue 1, pages 149–165, February 2001, Wiley.com, accessed 7/1/2016.
  46. ^ "Mark Lehner IAmA". 2018.

External links

  • A skeptical appreciation of the hypothesis
  • Sphinx photo gallery

March 03, 2023
sphinx, water, erosion, hypothesis, fringe, claim, contending, that, great, sphinx, giza, enclosing, walls, eroded, primarily, ancient, floods, rainfalls, attributing, their, creation, plato, lost, civilization, atlantis, over, years, great, sphinx, giza, egyp. The Sphinx water erosion hypothesis is a fringe claim contending that the Great Sphinx of Giza and its enclosing walls eroded primarily due to ancient floods or rainfalls attributing their creation to Plato s lost civilization of Atlantis over 11 500 years ago 1 2 The Great Sphinx of Giza Egyptologists geologists and others have rejected the water erosion hypothesis and the idea of an older Sphinx pointing to archaeological climatological and geological evidence to the contrary 3 4 5 6 7 8 Contents 1 History 2 Dating the Sphinx 2 1 Archaeological context 2 1 1 Causeway 2 1 2 Sphinx Temple and Khafre Valley Temple 2 1 3 Missing archaeological evidence for an earlier civilization 2 2 Erosion 2 2 1 Pre Sphinx erosion 2 2 2 Water erosion 2 2 3 Haloclasty 2 2 4 Wind erosion 2 2 5 Comparisons to other structures 2 3 Head size 3 References 4 External linksHistorySee also Atlantis In the 1950s French mystic 9 10 and alternative Egyptologist Schwaller de Lubicz speculated the body of the Sphinx to be eroded by deluges and that therefore the Sphinx must predate them further claiming that ancient Egyptian knowledge originated from colonists or refugees of Plato s sunken continent of Atlantis 1 2 In 1979 Author and alternative Egyptologist John Anthony West inspired by Schwaller s ideas attributed the erosion to Nile floods between 15 000 and 10 000 BC By denying the existence of any evidence for the development of Egyptian civilization prior to the first dynasty West created room to inject the idea of a lost advanced civilization of Atlanteans who created the Sphinx and passed on their knowledge to the dynastic Egyptians 11 Ten years later West sought the opinion of geologist Robert Schoch to validate his claims In 1990 they traveled together to Egypt visiting the Sphinx The following year Schoch formulated and presented his version of the hypothesis 12 purposely avoiding the use of the word Atlantis 13 14 He originally estimated the Sphinx to have been created before 5000 BC later pushing his minimum estimate further back to 9700 BC once again aligning it with Plato s lost civilization of Atlantis 12 15 16 Dating the Sphinx Sphinx and Sphinx Temple right Khafre Valley Temple with causeway running past the Sphinx left Archaeological context The Sphinx is positioned north of the lower end of the causeway of Khafre that connects his Pyramid and Valley Temple It was created by carving it out of the bedrock cutting blocks from around its body which were used to construct the Sphinx Temple immediately east of the Sphinx and north of the Valley Temple aligned to it 17 Evidence suggests that both the Sphinx and its temple were created only after Khafre s Valley Temple and causeway The Sphinx Temple was built on the foundation of the preexisting northern enclosure wall of the Valley Temple This wall was entirely removed apart of a small portion which was incorporated into the Sphinx Temple 18 Unlike the Valley Temple both the Sphinx enclosure and the Sphinx Temple remained unfinished The north and east walls of the enclosure are cut back unevenly and insufficiently The Sphinx Temple lacks in height and work to fit casing blocks was only partially completed 19 Lehner suggests that a Sphinx cult wasn t established when work ceased prematurely hence the relative lack of cultural material from the Old Kingdom 20 21 Peter Lacovara an Egyptologist and curator at the Michael C Carlos Museum assigns some of the erosional features on the enclosure walls to quarrying activities rather than weathering 22 Causeway The causeway connecting Khafre s Pyramid and Valley Temple is not oriented to the cardinal directions but runs slanted The southern wall of the Sphinx enclosure respects this orientation Sphinx Temple and Khafre Valley Temple Luminescence dating of the two temples gave dates for the middle to late third millennium BC concurring with the chronological estimates for Khafre and the 4th dynasty and the radiocarbon dates for the pyramids of Giza Some samples indicated New Kingdom intrusions into the temples 23 As such the Dream Stele between the paws of the Sphinx might have been originally a door lintel of Khafre s valley or pyramid temple Several hieroglyphic inscriptions were found on the walls of the Khafre temples 24 as well as several statues of Khafre or fragments thereof 25 Schoch argues that the casing was applied long after the core structure was built stating that granite facing of the Sphinx and Valley Temple is covering deeply weathered limestone that was slightly cut back and smoothed out but not enough to make the wall perfectly smooth 26 Lehner responded that the limestone wasn t deeply weathered but that it was cut back irregularly to fit the harder granite facade to it pointing to the Menkaure Pyramid Temple where the technique can be clearly seen 4 Missing archaeological evidence for an earlier civilization Mark Lehner when asked about the possibility of an earlier civilization replied Well it s not impossible but it has a very very low level of probability that there was an older civilization there 27 Other archaeologists who have made similar criticisms include Kenneth Feder Feder wrote there is no evidence whatsoever for a culture capable of building the Great Sphinx much before the traditionally accepted date A large and impressive monument like the Great Sphinx cannot have built itself there must have been a social and practical infrastructure in place to accomplish that task In other words only a culture with a pattern of social stratification and the capability to enlist the labor of a large pool of workers would have been capable of building the Great Sphinx and for the period predating 2500 bce there is no evidence at all of such a culture no complex settlements with substantial populations no social hierarchy reflected in inequality in housing or burials There is no sign at all of an infrastructure necessary to support a large population of workers no sign of the ability to produce a large agricultural surplus to feed the construction workers no evidence of dormitories for housing them no huge storage facilities for food no great bakeries no cemeteries in which to bury the workers who would have died during the construction project 28 Erosion Erosion on the front body of the Sphinx and the enclosure behind Weathering on the head and neck was repaired in the 1920s Pre Sphinx erosion Schoch argues that the Giza Plateau is criss crossed with fractures or joints millions of years old and that fissures such as those on the Sphinx enclosure wall can only be produced by water primarily precipitation and do bear on the age of the Sphinx 29 Geoscientist Jorn Christiansen agrees that at least some of the erosion took place before the Sphinx was carved Stating that water most likely seeped through natural fissures in the limestone before the Sphinx had been carved causing the walls of the Sphinx enclosure to look like they were carved much earlier than they really were As such Christiansen determined that there was no geological evidence to suggest the Sphinx was carved earlier than any other monuments on the Giza plateau 30 Hawass points to the poor quality of much of the Giza limestone as the basis for the significant erosion levels 31 Water erosion Vertical weathering on the body of the Sphinx After an investigation of the enclosure s geology Schoch concluded that the most prominent weathering pattern was caused by prolonged and extensive rainfall pointing to the well developed undulating vertical profile on the enclosure walls 12 Further stating that many of the vertical and inclined solution features follow preexisting joints and faults in the bedrock referencing the absence of such features on other rock surfaces in the Giza pyramid complex 32 Other geologists such as Gauri disagreed and argued for different erosion forces or a combination of such Schoch contends that because the last period of significant rainfall seemingly ended between the late fourth and early 3rd millennium BC 33 the Sphinx s construction must date to 5000 BC or earlier 29 32 34 However new geoarchaeological evidence suggests the occurrence of heavy rainfalls until the end of the Old Kingdom circa 2200 BC 5 Hawass criticizes that Schoch never demonstrates why the rainfall over the last 4 500 years would not be sufficient to round off the corners pointing to the many downpours at Giza over the past decades 35 A recent study by Rudolph Kuper and Stefan Kropelin of the University of Cologne suggest the change from a wet to an arid climate in the Sahara happened gradually with climate changes taking place on a north to south gradient According to this study arid conditions began in the Egyptian Sahara by 5300 BC These desert conditions gradually extended to the south with Northern Sudan experiencing an arid climate circa 1500 BC 36 Egyptologist Mark Lehner believes this climate change may have been responsible for the severe weathering found on the Sphinx and other sites of the 4th Dynasty After studying sediment samples in the Nile Valley Judith Bunbury a geologist at the University of Cambridge concluded that climate change in the Giza region may have begun early in the Old Kingdom with desert sands arriving in force late in the era 37 Recently Schoch pushed back his minimum estimate 5000 years further back to around the end of the last ice age 15 16 Haloclasty Due to the Sphinx lying closely above the Nile aquifer capillary action moves water to the surface of the stone During this process salt contained in the limestone is dissolved and drawn to the surface where it crystallises The expanding crystals cause fine layers of surface limestone to flake off It is accepted by Schoch et al that this mechanism is evident in many places on the Giza Plateau One proponent of the haloclasty process is Dr James A Harrell of the University of Toledo who advocates that the deep erosion crevices were caused by the haloclasty process being driven by moisture in the sand that covered the carved rock for much of the time since it was exposed by quarrying 26 Lal Gauri et al 38 also favour the haloclasty process to explain the erosion features but have theorised that the weathering was driven by moisture deriving from atmospheric precipitation such as dew Analysis of the Sphinx s bedrock by the Getty Conservation Institute 1990 1992 concluded that Continual salt crystallization which has a destructive effect on the stone would explain at least some of the deterioration of the Sphinx 39 40 Haloclasty is rejected as an explanation for the vertical erosion features by Schoch because it does not explain all the visible evidence namely that the water erosion features are not evenly distributed being concentrated in those areas that would have been particularly exposed to running water whereas the haloclasty process should have operated evenly on all exposed limestone surfaces 26 Wind erosion Schoch states that wind erosion forms distinctive horizontal bands whereas the water erosion features are clearly vertical 26 Comparisons to other structures Hawass stated that from the present day rapid rate of erosion on the Member II surface of the Sphinx that t he eleven hundred years between Khafre and the first major restoration in the Eighteenth Dynasty or even half this time would have been more than enough to erode the Member II into the deep recesses behind Phase I restoration masonry 31 Schoch and West argued that other structures and surfaces on the Giza Plateau are made from the same band of limestone as the Sphinx enclosure but do not show the same erosion as the walls of the Sphinx enclosure and that unspecified early dynastic mudbrick mastabas at Saqqara close to Giza have survived relatively undamaged which lead them to conclude that no heavy rainfall has occurred in the region since the Early Dynastic Period 41 42 Reader replied to this stating that these structures were built on an area of high ground and do not lie within any natural catchment These tombs will not therefore have been exposed to any significant run off He concludes that the fact that they are not significantly degraded as Schoch has pointed out demonstrates that rainfall itself has not been a significant agent of degradation in Egypt 43 Rainfall water run off however has been a more significant factor Reader cites evidence of flood water damage in another location to illustrate this 44 45 Lehner responded that these tombs were protected from erosion by sand and debris for most of their history asking Schoch and West to clarify which mastabas they were referring to exactly 4 Head size Various authors like Schoch and Temple have asserted that the head of the Sphinx is too small for its body concluding it was recarved Lehner argued that the head is primarily too small in relation to the length of the body suggesting that without elongating the body the builders wouldn t have been able to complete the latter part of the Sphinx due to a large natural fissure that cuts through the bedrock 46 References a b A great civilization must have preceded the vast movements of water that passed over Egypt which leads us to assume that the Sphinx already existed sculptured in the rock of the west cliff at Gizeh that Sphinx whose leonine body except for the head shows indisputable signs of aquatic erosion in R A Schwaller de Lubicz Sacred Science The King of Pharaonic Theocracy New York Inner Traditions International 1982 ISBN 0 89281 007 6 Originally published entitled Le Roi de la Theocratie Pharaonique Paris Flammarion 1961 a b West John Anthony 1979 Serpent in the Sky Why Sequence is Important Lehner Mark Hunt Brian V link Archived 26 July 2010 at the Wayback Machine a b c Lehner Mark 1994 Notes and Photographs on the West Schoch Sphinx Hypothesis KMT 5 3 40 48 a b Welc Fabian Marks Leszek 2014 Climate change at the end of the Old Kingdom in Egypt around 4200 BP New geoarchaeological evidence Quaternary International 324 124 133 Bibcode 2014QuInt 324 124W doi 10 1016 j quaint 2013 07 035 Sphinx Project Ancient Egypt Research Associates 10 September 2009 Retrieved 12 November 2021 Dunford Jane Fletcher Joann French Carole ed 2007 Egypt Eyewitness Travel Guide Archived 2009 02 18 at the Wayback Machine London Dorling Kindersley 2007 ISBN 978 0 7566 2875 8 Lehner 1991 Wilson Peter Lamborn 1993 Sacred Drift Essays on the Margins of Islam City Lights Books p 105 ISBN 978 0 87286 275 3 Garrett G Fagan editor Archaeological Fantasies How Pseudoarchaeology Misrepresents the Past and Misleads the Public page 251 Routledge 2006 ISBN 0 415 30593 4 West John Anthony 1979 Serpent in the Sky p 213 Egyptologists postulate an indeterminate and indeterminable period of development prior to the First Dynasty This assumption is supported by no evidence indeed the evidence such as it is appears to contradict the assumption a b c Schoch Robert M 1992 Redating the Great Sphinx of Giza in Circular Times ed Collette M Dowell Retrieved 17 December 2008 Schoch Robert Rising From the Ashes of SIDA Robert Schoch Ancient Egypt The Sphinx amp The Great Flood 2018 7 30 a b Schoch Robert 2017 Origins of the Sphinx Celestial Guardian of Pre Pharaonic Civilization a b Joe Rogan Interview Robert Schoch Explains Sphinx Water Erosion Hypothesis 2018 Lehner Mark 2017 Who Built the Sphinx PDF Aeragram 18 1 2 7 Sequencing tells us which happened first 13 October 2009 Ricke Herbert 1970 Der Harmachistempel des Chefren in Giseh Beitrage zur Agyptischen Bauforschung und Altertumskunde 10 Lehner Mark 1991 Archaeology of an Image The Great Sphinx of Giza Khafre s Monuments as a Unit 13 October 2009 Lacovara Peter 2004 The Pyramids the Sphinx Tombs and Temples of Giza Bunker Hill Publishing p 64 ISBN 978 1 59373 022 2 Surface luminescence dating of some Egyptian monuments Journal of Cultural Heritage 16 2014 Holscher Uvo 1912 Das Grabdenkmal des Konigs Chephren Borchardt Ludwig 1911 Statuen und Statuetten von Konigen und Privatleuten PDF pp 9 19 a b c d Geological Evidence Pertaining to the Age of the Great Sphinx Robertschoch com Archived from the original on 19 March 2017 Staff writer 1997 How Old Are the Pyramids Part 2 Nova Online PBS Retrieved 26 February 2018 Kenneth L Feder Encyclopedia of Dubious Archaeology From Atlantis to the Walam Olum page 130 Greenwood Publishing Group 2010 ISBN 978 0 313 37918 5 a b Schoch Robert M 1995 Response in Archaeology Magazine to Zahi Hawass and Mark Lehner in Dowell Colette M ed Circular Times The Great Sphinx of Egypt Nature s Shabby Chic Trick GEO ExPro 9 January 2015 Retrieved 26 May 2018 a b Hawass Zahi 1999 The Secrets of the Sphinx Restoration past and present Columbia University Press p 14 ISBN 978 977 424 492 6 a b Schoch Robert M 1999 2000 Geological Evidence pertaining to the Age of the Great Sphinx Archived 14 April 2009 at the Wayback Machine in Spedicato Emilio Notarpietro Adalberto ed 2002 New Scenarios on the Evolution of the Solar System and Consequences on History of Earth and Man Proceedings of the Conference Milan and Bergamo 7 9 June 1999 Universita degli Studi di Bergamo Quaderni del Dipartmento di Matematica Statistica Informatica ed Applicazion Serie Miscellanea 3 2002 171 203 Palaeoclimate and environment Archived 7 June 2009 at the Wayback Machine Fezzan Project Climate Research Unit Environmental Sciences Faculty of Science University of East Anglia Retrieved 17 December 2008 Michael Brass The Antiquity of Man Robert Schoch Antiquityofman com Archived from the original on 14 March 2009 Retrieved 26 May 2009 Hawass Zahi 1998 The Secrets of the Sphinx Kuper Rudolph Kropelin Stefan 11 August 2006 Climate Controlled Holocene Occupation in the Sahara Motor of Africa s Evolution PDF Science 313 5788 803 807 doi 10 1126 science 1130989 Haddingham Evan Uncovering Secrets of the Sphinx Smithsonian magazine February 2010 1 Gauri K Lal Sinai John J Bandyopadhyay Jayanta K 1995 04 Geologic Weathering and Its Implications on the Age of the Sphinx Geoarchaeology an International Journal 10 2 April 1995 119 133 ISSN 0883 6353 Newsletter 7 2 Summer 1992 getty edu Retrieved 26 February 2018 Getty Institute Probes Riddle of the Deteriorating Sphinx by Kim Murphy Los Angeles Times 16 May 1990 2 Redating the Great Sphinx Robertschoch com The Mystery of the Sphinx Reader Colin 17 March 2000 Further considerations on the Age of the Sphinx Archived from the original on 2 June 2015 Retrieved 23 March 2014 White Chris 29 November 2012 The Age of the Sphinx Colin Reader vs Robert Schoch Water Erosion Ancientaliensdebunked com Archived from the original on 2 February 2013 C D Reader A Geomorphological Study of the Giza Necropolis with Implications for the Development of the Site Volume 43 Issue 1 pages 149 165 February 2001 Wiley com accessed 7 1 2016 Mark Lehner IAmA 2018 External linksAn academic article arguing the case for water erosion evidence A skeptical appreciation of the hypothesis Sphinx photo gallery Retrieved from https en wikipedia org w index php title Sphinx water erosion hypothesis amp oldid 1129387651, wikipedia, wiki, book, books, library,

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