Jinny123看过来，本月阅读jj第15篇Polished Stone of Mammoth Rocks，疑似背景文章或原文

Msmoon

出处 http://geology.about.com/od/geology_ca/ig/mammothrocks/


The Polished Stone ofMammoth Rocks  By Andrew Alden, About.com Guide

The large, isolated rock bodies near Shell Beach, inSonoma County, California, display curious polished patches. These closelyresemble polish typical of that made today by elephants, cows and other largeanimals that rub their skins against large rocks and trees. Here is a closerlook at the evidence for and the thinking behind the hypothesis that the polishwas created by Pleistocene mammoths.

The California coast has looked very different in therecent geologic past. The Quaternary ice ages have raised and lowered sea levelmany times in the past 2.5 million years. In addition, parts of the Californiacoast are being uplifted by tectonic activity along the wide San Andreas faultsystem. In some places this leaves several wave-cut platforms above the sea.Here, there are a few subtle platforms at higher elevation, but this terrace isthe main one, extending from here down to Bodega Head about 12 kilometers away,just visible in this photo. To the right is the present-day wave-cut platform,covered by seawater at all times. The rock bodies there that resist the erosionof waves are called chimneys, stacks or sea stacks. Several more wave-cutplatforms are mapped farther offshore, at deeper depths. The bodies of stone onthe terrace, collectively called Mammoth Rocks, are former stacks from thatsea-level highstand in late Pleistocene time.

Why these isolated rocks exist in the first place, ready to be eroded into stacks, is apeculiarity of the bedrock here, which is melange of the Franciscan Complex. Melange (French for mixture) is a colossal mixture of rock types formed insubduction zones where deep-sea trenches lie near mountainous shores. Here mostof the melange is a medium-grained gray sandstone, representing huge avalanchesof sand pouring down a submarine canyon into the trench. Large pieces of olderrock are carried along with the sand, perhaps falling from the canyon walls orperhaps traveling all the way from shore. These "exotic blocks" areentombed in the sandstone like raisins in a cake. Later the trench sediment is lithified, then lifted and plastered againstthe continent. When erosion by the sea chews away the sandstone, harder blocksemerge by resistance. (Softer blocks are there, too, but of course theydisappear.)

Sunset Rocksand the other larger stack are both made of blueschist, a rock that started outas basalt lava before being carried down a subduction zone as deep as 30kilometers. There the high pressure and relatively low temperature turned itsset of minerals into another set consisting mainly of blue-black glaucophane,garnet and quartz.

This overhanging section of Sunset Rocks is dark where the blueschist is smooth andpolished. The light surroundings are covered with lichen, but much of that areais also smooth. The archaeologists put together a hypothesis that seemedfar-fetched but was too compelling to ignore. They knew that during glacialtimes the sea was 100 meters lower than today, putting the beach 20 kilometersor more to seaward. In the wetter climate of glacial periods, without the drysummers of modern times, the Sonoma coast was a wide grassland that supportedherds of large herbivorous mammals, a "California Serengeti." Thoseanimals included prehistoric species of bison, camels, ground sloths, horsesand mammoths. All of these herbivores are known to rub themselves against largerocks or trees as part of their grooming behavior. Could this polish be themarks of those extinct species?

One of thosepeople was E. Breck Parkman, a state parks archaeologist whocame back and excavated here. He found the same polish extending a meter belowthe present soil level. That ruled out a modern origin for the polish, althoughsheep and cattle certainly used this as a rubbing post during the hundred yearsor so that this land was a ranch.

Large herbivores cannot scratch themselves very well,and they collect ticks and flies and a host of skin parasites. Furry animals(and birds too) favor dust baths to smother these vermin. Species with littleor no fur, like modern elephants, wallow in mud for the same purpose. When theyuse a rubbing rock, the dust and grit in their fur and skin gently wears awaythe stone as surely as a jeweler uses rouge to polish a gemstone.

BreckParkman enlisted the aid of local geologists to examine this polish under thescanning electron microscope and the atomic force microscope. The surface isextremely smooth at the very small scale, unlike any surface created bygeological means with the possible exception of slickensides (but other than their smoothsurfaces, slickensides are very different).

Rubbingrocks are described elsewhere in North America and in Africa, and often thesurfaces are impregnated with lanolins from animal skin. There is a realpossibility that prehistoric remains can be extracted from sites like this.

Although thefractures in the blueschist reflect the sun to a degree, the mirror-smoothpolish is evident in this view at the center, directly below it, and in theupper right corner. The highest polish is scarcer and somewhat more degradedthan the polish at 2 meters height and below.

The Columbian mammoth (Mammuthus columbi) is the only animal that couldplausibly create rock polish so high off the ground. It stood 4 meters high atthe shoulder. Prehistoric bison, horses and camels were taller than today'sspecies, but not that tall. Bones of this mammoth have been found in the area.It went extinct around 10,000 years ago. Breck Parkman compiled the evidence in a paper for Quaternary Research. You can learn much more at hiswebsite on the Mammoth Rocks page, but he will be the first to tellyou that it is a hypothesis, not a fully accepted scientific fact.

MammothRocks are popular among rock climbers. Between their inadvertent damages andthe predations of souvenir hunters, this intriguing feature is at greater riskthan any other time since its formation. If you visit this site, please do twothings:

(1) remember that geological collecting isforbidden in state parks without a permit and

(2) be anadvocate for the polish. When people learn that something is cool, they respectit.

Physical (or mechanical) weathering is the set of geologic processesthat break down solid rock into pieces and eventually into sediment. SunsetRocks has a tumbledown look, and the farther stack looks pretty ragged itself.I don't believe this is due to the usual things: daily temperature cycling,freeze-thaw cycles, exfoliation and so on. I think it's earthquake weathering,or seismic weathering if you prefer. If you study Sunset Rocks at some length,you'll notice no sign of chemical weathering, just clean rock with cleanfractures in it. And you'll see how the pieces can all be restored to integrityby picking them up and tilting them back toward the center. The San Andreasfault runs about 2 kilometers offshore here, and in the 125,000 years sincethis wave-cut bench was abandoned there must have been roughly 500 earthquakesthe size of the 1906 event here.

Thishypothesis has two consequences. First, Parkman puts some stress on the factthat many heavily polished places on these rocks are in overhangs. That may besignificant for the behavior of rubbing animals, as he supposes, becauseoverhangs are better for scratching their backs. But it may also be that theblocks have been gradually tilting outward with every large earthquake. Orboth, of course. Second, it would be worth doing, if funding ever permits, totilt up a few of these blocks and poke around underneath them. There might bewell-preserved polished faces to study, for one thing. For another, just maybe,one of those tumbling blocks killed something.

Msmoon

再放一篇本文中提到的关于这个叫Breck Parkman学者的研究论文。 有点长，不过貌似里面有些东西也是GMAC改写的，比如用显微镜试验等等的内容。大家就当背景内容读吧。一起加油！

Rubbing Rocks, Vernal Pools, and the First Californians: Pursuing the Rancholabrean Hypothesis
E. Breck Parkman Senior State Archaeologist California State Parks

Introduction

In 2001, I discovered what I believe to be Rancholabrean rubbing rocks on California’s North Coast (Parkman 2002a, 2002b, 2002c). (1)   These are features that I believe were used for grooming by now-extinct Ice Age megafauna such as Mammuthus columbi and Bison antiquus. The rocks are located on the coast of Sonoma County about 75 km north of San Francisco, within Sonoma Coast State Beach, a unit of the California State Park System. To date, I have located six sites consisting of one or more rubbing rocks, all within an area about 4 km in diameter. The two main sites are referred to as Mammoth Rocks and Jasper Rock.

The Mammoth Rocks site consists of four loci of rubbing rocks, separated by about 300 m (Fig. 1). Two of the loci consist of very large blueschist seastacks (20 and 30 m tall). The other two loci are smaller blueschist boulders (4 and 5 m tall). The four loci surround an enigmatic wetland that I believe may represent a relic animal wallow.
Jasper Rock is located 3 km south of Mammoth Rocks. This site consists of a single jasper (red chert) boulder which stands about 2.5 m tall. A shellmidden (CA-SON-365/H) is located 100 m south of the boulder.

Over the past two years, I have developed what I term, “The Rancholabrean Hypothesis.” Simply put, the hypothesis proposes that elements of the Rancholabrean landscape (e.g., megamamal rubbing rocks and wallows) still survive and can be detected on the contemporary landscape. Furthermore, by identifying these Pleistocene features, it may be possible to map the archaeological presence of the area’s first people. Since the initial discovery of the Sonoma Coast rubbing rocks, a loose-knit team of researchers (including archaeologists, geologists, paleontologists, geomorphologists, pedologists, physicists, chemists, zoologists, botanists, and molecular biologists) have been working with me to confirm or deny the Rancholabrean Hypothesis. (2)  The following  is an update on some of the progress that we have made to date as well as our plans for future research.

Archaeological Investigations at Jasper Rock

Since 2003, archaeological excavations have been underway at Jasper Rock, a highly-polished jasper outcrop with evidence of past quarrying. The spring and fall 2003, and spring 2004 archaeological field classes from Santa Rosa Junior College, under the direction of Thomas Origer, and a summer 2003 volunteer crew under my direction, have to date excavated approximately 30 cubic m of the site. In spring 2003, six 1x1 m units were excavated near the jasper outcrop. During the summer and fall of 2003, one of the units was expanded into a 4x4 m block exposure (Fig. 2). The spring 2004 crew worked on the 4x4 m exposure, and also excavated three 1x1 m units at CA-SON-365/H, a shellmidden located 100 m south of the jasper outcrop. The surface of the shellmidden had revealed debitage of a material similar to the outcrop. Thus, we chose to excavate the shellmidden in order to determine its connection, if any, with Jasper Rock.

By the end of fall 2003, a single 1x1 m unit located within the larger 4x4 m exposure at Jasper Rock had been excavated to a depth of 280 cm. Additionally, an auger test within the deep unit had been excavated to a depth of 403 cm. As we excavated down, we discovered that the rock outcrop is polished to a depth of 2 m below the current ground surface. The excavations also revealed that the site served as a quarry for stone tool material, and that it was probably utilized at multiple times in prehistory. The topsoil (a dark brown Rohnerville Loam from 0-90 cm) contains numerous hammerstones, chert and obsidian debitage, and several obsidian projectile points (Fig. 3A, B). The projectile points and obsidian hydration indicate a date of about 500CALYBP for the upper component (0-90 cm).

An additional component (or perhaps components) exists from about 100-180 cm, a zone characterized by compacted yellow loam subsoil. Hammerstones and debitage also occur here, as do much larger (25-100 kg) detached blocks of the jasper outcrop (Fig. 2). The large blocks appear to have been dislodged from the overhanging outcrop, perhaps to facilitate quarrying activities. (3)  I suspect that some of these blocks were removed from the parent outcrop by way of prying. Several backed bladelets of chert (Fig. 3C, D, I) and one of obsidian (Fig. 3H) came from this component as did an end scraper with apparent blade scars on its dorsal surface (Fig. 3C) and several small thumbnail scrapers. The bladelets resemble those recovered from the lower two components of the Duncans Landing Rockshelter (CA-SON-348/H), an important archaeological site located 1.4 km south of Jasper Rock (Schwaderer 1992). The Duncans Landing Rockshelter contains at least five cultural components, the next to the lowest (Component 2) dating to 9,000 CALYBP (Component 1 has yet to be dated). (4)  It is possible (but certainly not proven) that the cultural component (or components) found between 100-180 cm at Jasper Rock is contemporaneous with the early Holocene occupations at nearby Duncans Landing Rockshelter.

At Jasper Rock, additional cultural components may exist from 180-350 cm. The single deep excavation unit revealed quarry debris to 220 cm, and several possible hammerstone spalls were found at 200-220 cm. The auger test made in the same unit recovered what may prove to be small pieces of quarry shatter to 340-350 cm. Additionally, two small blade-like flakes of quartz were found at 200-210 and 310-320 cm, but will likely prove to be percussive shatter or perhaps even geofacts (Fig. 3E, F). (5)  Because the deep unit was sited directly beneath a heavily-polished knob of the outcrop, care must be taken to segregate possible geofacts and zoofacts from artifacts. To this end, Glen Halverson, one of Tom Origer’s students and my volunteer, created a mechanical trampling experiment to replicate the effects of megamamal trampling on local chert cobbles. The results of that experiment are currently being analyzed. However, some of the mechanically-produced “zoofacts” appear to closely resemble cultural debitage. Similar findings were made at the Big Eddy site in Missouri, where lithics thought to be pre-Clovis in origin, are now thought to be zoofacts (Lopinot et al. 2000). At Jasper Rock, however, we appear to have cultural material to a depth of at least 220 cm.
Paleoenvironmental Reconstruction of the San Francisco Bay Area

If the Coastal Migration Model (Dixon 1999; Fladmark 1979) has merit, as California’s linguistic diversity and recent archaeological discoveries on the state’s South and Central Coasts (e.g., Johnson and Morris 2002; Jones et al. 2002; Rick et al. 2001) suggest, the Sonoma Coast should have offered abundant resources for early Paleoindians in the late Pleistocene. At that time, the Mammoth Rocks and Jasper Rock sites sat at the back of a broad coastal plain, most of which is now inundated. (6)  The plain was likely endowed with a rich growth of perennial grasses resulting from the complex grazing-browsing-trampling regime of the Rancholabrean megafauna (Edwards 1991:4). This coastal prairie comprised the northern part of what I term the Farallon Plain (Parkman 2003b). It extended from the mouth of the California River (Howard 1979:74) west of the Golden Gate to a point north of the Russian River’s mouth. Ranging from approximately 20-48 km in width, the prairie may have surpassed 300,000 ha in size. Further inland, an approximately 200,000-ha grassland (or grassland savanna) extended from the California River north to Cloverdale, including the Petaluma and Sonoma Valleys and the Santa Rosa Plain.

A similar coastal and interior pasture system likely existed south of the California River as well. A grassland (or grassland savanna) of approximately 300,000 ha probably existed beneath the current San Francisco Bay and southward to San Juan Bautista. To the west, an approximately 400,000-ha prairie extended from the mouth of the California River south to the San Benito River. “Franciscan Valley” is what Daniel Axelrod (1981:848) has termed the trough that is now inundated by San Francisco Bay. For the purposes of my discussion, I use the term “Franciscan Valley” to designate the area extending from Cloverdale south to San Juan Bautista. Likewise, my “Farallon Plain” extends from a point north of the Russian River’s mouth south to the San Benito River. Thus, the Franciscan Valley of the late Pleistocene measured approximately 500,000 ha while the Farallon Plain was at least 700,000 ha is size. At 1.2 million ha, the combined Farallon Plain–Franciscan Valley ecosystem was approximately 1/8 the size of today’s Serengeti-Mara ecosystem in East Africa.  (7)

A number of obvious east-west corridors linked these interior and coastal “pastures,” allowing for the easy anastrophic migration movements of herds of megaherbivores (cf. Jefferson 1988; Jefferson and Goldin 1989). (8) The Mammoth Rocks site sits adjacent to one such corridor, the lower Russian River Valley. Another corridor was probably the area comprised of the Estero Americano, Estero San Antonio, San Antonio Creek, Americano Creek, and Stemple Creek drainage systems linking Novato and Petaluma with Bodega Bay. Further south, another corridor most likely followed the Crystal Springs Reservoir (San Andreas Fault) linking Palo Alto with San Francisco’s Lake Merced area.

Naturally, the most obvious corridor connecting the Franciscan Valley with the Farallon Plain followed the south side of the California River through the Golden Gate. During the late Pleistocene, this corridor passed through what I term the “Alcatraz Triangle,” an area located just inside the Golden Gate and bounded by the Golden Gate, Angel Island, and Alcatraz Island. One area of interest within the Triangle is revealed by bathymetric data. Near the Triangle’s center are found three rock pinnacles known as Harding, Shag, and Arch Rocks. (9) All three are currently hidden beneath the waters of San Francisco Bay. However, during the late Pleistocene, all three rocks were exposed. Harding Rock, the largest of the three, stood over 100 m in height. (10) This trio of rocks commanded an area where the trail corridor narrowed down as it approached the Golden Gate. Such an area would have provided ideal cover for Ice Age predators (especially Smilodon californicus, Panthera leo, and Arctous simus) intent on ambushing passing prey animals. (11)  It is likely that Paleoindians made use of the area as well. (12) Indeed, providing the Coastal Migration Theory holds true, the corridor leading through the Alcatraz Triangle connecting the coastal plain with the interior could have provided the first settlers with an advantageous route for colonizing California’s Central Valley (Surovell 2003:589). It would have also allowed easy access to the coastal plain by interior Paleoindian populations (e.g., Clovis) moving west from the Central Valley.

Mammoth Rocks also appears to have been located along a major migration corridor. It is likely that the rubbing rocks sat beside a major game trail linking the interior Santa Rosa Plain with the coastal plain by way of a pass leading up from the Russian River and passing between Red and Peaked Hills. The pass is still used today by State Highway 1. After coming up from the Russian River by way of the pass, late Pleistocene animal herds would have looked out across an approximately 20-km wide coastal prairie (at ca. 19,000-15,000 CALYBP), with the large exposed seastacks of Mammoth Rocks sitting directly in front of them. The coastal plain would have been marked by freshwater ponds and estuaries, meandering tree-lined drainages, localized sand dunes, and other exposed seastacks. The seastacks offered protection to herd animals, especially on windy landscapes like the Sonoma Coast.The Jasper Rock site, like Mammoth Rocks, is situated at the interior edge of the late Pleistocene coastal prairie. Their location at the back of the prairie, and along the ecotone separating the prairie and coastal range, almost guarantees that both rubbing rock sites were on a major trail corridor that led north and south along the interior edge of the coastal plain. The use of this north-south corridor by the megafauna would have allowed for easier movement and quicker access to choice locations on the prairie. The Duncans Landing Rockshelter (CA-SON-348/H) sat near this same hypothetical north-south trail during the late Pleistocene.

For the past two years, I have been surveying the eroding bluff of the coastal terrace between Mammoth Rocks and the Duncans Landing Rockshelter. This has allowed me to regularly inspect the subsurface stratigraphy of a 5-km transect traversing the same area that I propose to have once been characterized by a major north-south game trail. Not surprising, I have found a number of archaeological sites along this transect.One of the often voiced concerns with the Coastal Migration Theory, and with the Paleoindian occupation of the late Pleistocene coastline, is that the archaeological sites associated with such use were inundated by the rising ocean at the close of the last Ice Age, and thus little can be found of them. I believe that is only partly true. If Paleoindians populated the Sonoma Coast, it seems likely that they would have made great use of the interior edge of the coastal plain.

The area between Mammoth Rocks and the Duncans Landing Rockshelter was obviously the scene of concentrated megafaunal activity. As such, the area offered a variety of resources to the early settlers. For one thing, the area would have presented rich hunting possibilities. The prospects of scavenging other predators’ kills may have been an equally or more important reason for visiting the area. Given the concentration of animals, the area offered such seldom-considered resources as bison dung which may have been used to fuel campfires and cooking hearths. The area’s proximity to forested hillsides made it an attractive area to forage for forest-edge resources as well. (13)

To date, I have located at least three archaeological sites along the survey transect where artifacts eroding from the coastal bluffs (from the subsoil at depths of 50-150 cm) appear to suggest a considerable antiquity (> middle Holocene?). Included among the artifacts are a few blade-like flakes with edge wear (Fig. 3J, K), thumbnail scrapers (Fig. 3L), and scraping tools manufactured from what appear to be exotic cherts and chalcedonies (SEM analysis suggests that one scraper was used to work hides or leather) (Fig. 3M, N, O), and an apparent burin spall from what may prove to be a locally-exotic obsidian (Fig. 3P). While none of the sites may actually prove to be associated with the earliest coastal occupations, they do suggest that the coastal prairie/coastal range ecotone was utilized extensively in the past. Equally important, the sites illustrate the buried nature of the local archaeological record, leaving us to wonder what Paleoindian evidence might eventually be discovered there.

A Clovis-style fluted point was recovered at the interior edge of the coastal plain on the Mendocino Coast near Caspar (Simons et al. 1985). A second Clovis-style fluted point was found in a similar context on the Santa Barbara Coast (Erlandson et al. 1987). Closer to home, several chipped stone crescents, thought to be associated with fluted points, have been recovered from this same ecotone on the Sonoma Coast (from sites at Bodega Head, Stillwater Cove, and Salt Point). Although scant evidence, these artifacts suggest that Paleoindians utilized the interior edge of the coastal plain. Because today’s narrow coastal terrace is all that remains of the broader coastal plain of the late Pleistocene, it is one of the best places to search for Paleoindian evidence.

Jasper Rock, given its highly-polished, bright red color, has been observed to reflect the light of the setting sun, much as the glass windows of buildings do today. Prior to the intensive quarrying that we now know removed most of the rock’s polished surfaces, the outcrop would have lit up like a large beacon on clear days at sunset. This undoubtedly attracted attention, and should have brought the area’s earliest settlers to the site to investigate, regardless of whether they were hunters and gatherers moving west from the Great Basin, or maritime pioneers heading south along the coast. Once there, they would have discovered the jasper outcrop, a good source for stone tool material. They would have also found the Duncans Landing Rockshelter located nearby. (14)

During summer 2003, I worked with a team of researchers at Sonoma State University to analyze samples of the polished rock using both a Scanning Electron Microscope (SEM) and an Atomic Force Microscope (AFM). Dr. Stephen Norwick of the Dept. of Environmental Studies and Planning, Dr. Rolfe Erickson of the Dept. of Geology, and Tim McKernan, a student in the Dept. of Physics, participated in this research. The results of our investigation suggest that the polished rocks at both Mammoth Rocks and Jasper Rock were indeed created by Rancholabrean megafauna (Parkman et al. n.d.). The AFM mapping of the polish topography revealed traits not found in naturally-polished specimens (i.e., those created by the actions of wind, water, and faulting). The SEM analysis identified striking similarities with historic elephant rubbing posts such as grit-induced scratches (Fig. 4).

In 2002-2003, I investigated the prospects for recovering ancient DNA from microfissures within the polished rock. I found a team of molecular biologists to initiate the required in-depth research, but they were unable to follow through with the project. Unfortunately, to date no other work has been attempted in this regard. However, the DNA team did determine that the polished rock surfaces contain microfissures, some of which have been sealed. I feel less certain now that DNA was preserved in the sealed fissures, but this still warrants further attention.

Until recently, the microblades from the Duncans Landing Rockshelter appeared to represent an anomalous situation in the local archaeological record. Finding additional bladelets at Jasper Rock suggests the presence of a microblade technology. I have since detected microblades elsewhere in the local North Coast Ranges. However, much more work is necessary to confirm or deny my observations. If a microblade technology does exist in the area, it has been all but overlooked by archaeologists. That said, there are a number of archaeologists who have noted finding isolated blade-like flakes, microblades, and microblade cores without going so far as to propose a local microblade tradition (e.g., Beard 1979:75; Heizer 1953:264, 341; Miller 1988:22-23; Sampson 1983:129).

Actually, there appear to be two separate microblade technologies occurring in the North Coast Ranges. The first is found in the early Holocene as evidenced at the Duncans Landing Rockshelter and perhaps Jasper Rock, depending on that site’s as yet unknown chronology. These are backed bladelets of obsidian and chert with edge wear suggesting scraping and cutting actions. They do not appear to have been made for fitting into slots in bone tools.

The second technology occurs in the middle-late Holocene as seen at sites in the Napa Valley and Clear Lake Basin. These microblades are primarily obsidian backed bladelets, perhaps found largely at sites proximal to the major obsidian sources at Napa Glass Mountain and Borax Lake. CA-NAP-58, located just south of Calistoga in the northern Napa Valley, is my primary site for investigating this proposed technology (Fig. 3Q, R, S). (15)  Other sites occur upstream on Ritchey Creek in Bothe Napa Valley State Park and on or near Cache Creek in Anderson Marsh State Historic Park. Obsidian backed bladelets have also been reported from CA-NAP-1, the “Goddard” site (Heizer 1953:264, 341). (16)

Additionally, a private artifact collection (known as the John Walters Memorial Collection) now in California State Parks ownership contains a number of obsidian blades (>50 mm long) and microblades (<50 mm long) ranging from about 30-100 mm in length (Fig. 3T) (Parkman 2003c). The objects were collected from a currently inundated shoreline site (“Lakeside Park”) on Clear Lake during the 1977 drought. (17)  In addition to the blades, other, as yet unexamined, lithic materials were collected from this same site. The site is located just 4 km from the well known Borax Lake site (CA-LAK-36), at which were found Clovis-like fluted points and chipped crescents (Harrington 1948; Meighan and Haynes 1970). These Clear Lake blades could conceivably be Paleoindian in origin as such blades are characteristic of the Clovis Culture (Collins 1999). However, they are more likely associated with the proposed middle-late Holocene technology. More work is necessary in order to confirm their origin, as well as the existence of the two proposed Holocene-era microblade industries.

To the south, a late Holocene microblade industry was present in southern California, and is much better understood there (cf. Dietler 2003; Heizer and Kelley 1962; O’Neil 1984; Pitzer et al. 1974; Swartz 1959, 1960). Among the Chumash of the Channel Islands, microblades were made for use as drills for shell beads (Dietler 2003).

Further north, on the Northwest Coast and in Alaska, the microblade-making cultures of the much earlier (ca. 10,500-8,500 CALYRBP) American Paleoarctic Tradition (APT) date to the Pleistocene/Holocene transition (Dixon 1999:165-192). The Northwest Coast Microblade Tradition (ca. >9,000-<8,500 CALYRBP), a regional variant of the APT, extended as far south as Oregon (ibid:178). It is conceivable but unlikely that Components 1 and 2 at the Duncans Landing Rockshelter, and perhaps all or part of the 100-180cm level at Jasper Rock, are associated with this northern microblade tradition. (18)

Other rubbing rock occurrences have been identified elsewhere in North America. In the Southwest, LeRoy Unglaub and Ekkehart Molatki have documented rubbing rocks at Cornudas Mountain, Alamo Mountain, Providence Cone, and Akela Flat in New Mexico. They have also found them at Hueco Tanks in Texas. The Hueco Tanks and Cornudas Mountain sites were first proposed as rubbing rock occurrences in the 1940s (Lang 1941, 1947). Kirk Peterson and Bruce Miller discovered two rubbing rock sites on the former shoreline of Lake Lahontan in northwestern Nevada (Peterson 2002). In Minnesota, Kevin Callahan has recorded an ancient buffalo rubbing rock at the famous Jeffers Petroglyph site. Other buffalo rubbing rocks are known throughout the Great Plains. (19)  In Wisconsin, Dr. Stephen Dutch (Dept. of Geology, University of Wisconsin, Green Bay) has identified a likely rubbing rock at Rock Springs near the Baraboo River. In 2003, Dr. Dutch visited the Sonoma Coast sites so as to better evaluate the site at Rock Springs.

Other notable visitors to the Sonoma Coast sites in the past year or two include Dr. Gary Haynes of the University of Nevada, Reno, and Dr. Tim Flannery, Director of the South Australian Museum. Drs. Haynes and Flannery are both accomplished scholars of the Pleistocene (e.g., Flannery 1994, 2001; Haynes 1991, 2002). Additionally, Dr. Christopher Chippendale of Cambridge University visited the Mammoth Rocks site as did a large tour group from the 2003 International Quaternary Association (INQUA) conference in Reno, led by Dr. Carol Prentice of the U.S. Geological Survey.Closer to home, Gary Shannon of California State Parks discovered a rubbing rock in the coastal range overlooking the Mammoth Rocks site. The new site is located on the side of Red Hill at an elevation of 207 m. The site consists of a blueschist boulder about 2.5 m in height. It occupies a bench that may possibly (albeit unlikely) correlate to Quaternary Marine Terrace 1 (QMT1). QMT1 (estimated to be about 516,000 CALYRBP) has not been mapped in this area, but is known further south near Bodega Bay. In that area, it is found significantly lower at approximately 79 m elevation. The difference in elevation could conceivably be a matter of accelerated uplift as one moves north. For example, on the southern Mendocino Coast, the oldest uplifted terraces are located at about 300 m and date to 420,000 CALYRBP (Prentice 1989:133). QMT2 (73 m elevation and 472,000 CALYRBP) and QMT3 (61 m and 320,000 CALYRBP) have also been mapped in the Bodega Bay area. QMT4 (52 m elevation and 320,000 CALYRBP) is visible cut into the hillside just above Mammoth Rocks. Mammoth Rocks and Jasper Rock, at approximately 40 m elevation, are both on QMT5 which is thought to correlate with the 5e (125,000 CALYRBP) sea level high stand (Hitchcock and Kelson 1998:23, 28). The Red Hill site is interesting because of its higher elevation and association with what may be a much older uplifted terrace. The polished surface of the Red Hill boulder measures about 1 m square and is almost completely covered with lichen. Lichens have been slow to colonize the polished surfaces of the lower rubbing rocks at Mammoth Rocks and Jasper Rock. The fact that the polished surface at Red Hill is almost completely obliterated from view by lichen growth suggests that the rubbing rock has gone unused for a much greater period of time than have the rocks further below on QMT5.
Current Research

During summer 2004, I am again working with a volunteer crew in the 4x4 m exposure at Jasper Rock. The exposure is being expanded in order to make it safe enough to continue the deeper excavation. Tom Origer’s fall 2004 fieldclass will return to the site, and by the end of this year, we hope to have a better idea of what is to be found in the deeper depths of the site. However, given the difficulty and depth of the excavation, we may not have many answers until next year. Also in summer 2004, Jack Meyer of Sonoma State University excavated a column sample from the 4x4 m exposure at Jasper Rock.

The excavated sample will be subjected to flotation analysis. As part of this same project, we hope to obtain a radiocarbon date from soil in the lower cultural component (i.e., from the lowest layer of the site that we know to be cultural). Meyer will also conduct flotation analysis of a column sample I excavated at Mammoth Rocks in fall 2002. At Mammoth Rocks, I excavated a single 1x1 m control unit adjacent to a heavily-polished rock face. In my excavation, I encountered a 0-48 cm dark brown topsoil (Rohnerville Loam) overlying a compacted yellow loam subsoil. I recovered several chert flakes in the 0-20 cm levels, and quite a few more in the 45-70 cm levels. The chert flakes in the subsoil appear to have come from CA-SON-1713, a green chert source (with evidence of quarrying) located about 250 m north of Mammoth Rocks. The chert flakes found in the topsoil were brown and gray in color, and came from elsewhere in the area. Drs. Marvin Rowe and Karen Steelman of the Department of Chemistry, Texas A&M University, have agreed to use their plasma-chemical extraction (PCE) method in an attempt to date samples of the polished rocks by direct AMS radiocarbon measurement (Rowe 2001; Rowe and Steelman 2002). They have had great success in the past at extracting and dating organic carbon from pictographs using the PCE method, and may be able to apply it to the polished rock samples with the same results. They will work with samples from both Jasper Rock and Mammoth Rocks.

Vernal Pools as Rancholabrean Wallows

Included among California’s most precious natural resources are the state’s vernal pools, seasonally flooded depressions found on ancient Ice Age soils with an impermeable layer such as a hardpan or claypan. The origin of the pools has always been a bit of a mystery, and there are several theories that have been offered to explain them. During earlier times, these features in the Central Valley were often referred to perhaps derisively as “hogwallows” just as similar features were referred to as “buffalo wallows” on the Great Plains (Anonymous 1998:15). I have recently added a new theory to the mix. In 2003, I hypothesized an association between vernal pools and ancient Rancholabrean wallows (Parkman 2003b). My reasoning began with an observation at Mammoth Rocks in 2001. (20)  The site contains an unusual wetland depression which measures about 0.5 ha in size. The depression is encircled by four loci of polished rocks. As unlikely as it may seem, I believe the depression may be a relic wallow left over from the late Pleistocene. If that is the case, then its presence helps explain the rubbing rocks that encircle it.

Contemporary rubbing rocks are typically associated with the bathing and grooming behavior of megafauna. For example, African elephants wallow at waterholes in order to coat themselves in mud, then, as the mud dries, they rub it off against a hard object, often a large boulder. This helps remove ectoparasites皮外寄生物 from the animal’s skin. Bison often use dry wallows for a similar purpose. I suspect that Ice Age mammoth and bison had similar practices to their modern-day counterparts. If so, then it seems probable that some of California’s vernal pools began as animal wallows. In the case of those that did not, it seems likely that they served as useful waterholes in late spring and early summer, and would have thus been affected by the very presence of the megafauna (e.g., African elephants are known to enlarge and “improve” waterholes). California’s vernal pools are typically associated with late Pleistocene soils and landforms (Anonymous 1998:18; Holland 2000:31-32; Stone 1990:91). While some of the Pleistocene pools have undoubtedly filled in over time, it is likely that many of these depressions have survived through the ages. The use of the vernal pools by megafauna during the late Pleistocene would have maintained many of the pools’ depressions until the time of the megafauna’s extinction, perhaps as late as 10,000 CALYRBP. The repeated use of the wallows by the megafauna would have prevented the California flora from colonizing the depressions for any length of time. However, upon the demise of the megafauna, and for the past ten millennia, the plants would have been free to move in and colonize the abandoned wallows. It is likely that plant adaptations and ecological dynamics mitigated against the in filling of many of the pools. Thus, if my hypothesis is accurate, many of California’s vernal pools were born of abandoned wallows at the dawn of the Holocene. I am currently exploring how best to investigate this aspect of the Rancholabrean Hypothesis.

Conclusions

The discovery of the Sonoma Coast rubbing rocks has inspired a multidisplinary effort to better illuminate the natural and cultural histories that characterized the San Francisco Bay area at the end of the last Ice Age. In order to truly understand the rubbing rocks, it is first necessary to fit them into the Pleistocene landscape. That means reconstructing major game trails, calculating optimal carrying capacities, estimating numeric predator-prey relationships, and integrating interrelated plant and animal communities, among other things. By creating this paleoenvironmental model, the rubbing rocks become features of an integrated landscape rather than anomalous stand-alone sites.

To date, the scientific testing of the model has been one of divergence. In the lab, SEM and AFM analyses have resulted in evidence that appears to validate the rubbing rock interpretation. It remains to be seen whether future lab analyses, such as the AMS radiocarbon dating of the rock polish, the flotation of soil samples, or some future probing for ancient DNA will bring additional positive results .However, contrary to the positive results derived from the lab analyses, the field investigations have diverged from the original course. To date, the excavations at Mammoth Rocks and Jasper Rock have revealed little if any tangible subsurface evidence of the Rancholabrean megafauna’s presence; they have instead revealed evidence of a human presence that may have considerable antiquity. While we continue to pursue mammoth and bison in the lab, we are chasing microblades and hammerstones in the field. If we are lucky, the megafauna and artifacts will come together in the lower levels of the Jasper Rock excavation. At least, that is what the model suggests may happen. And if this does not happen at Jasper Rock, perhaps it will at Mammoth Rocks.

The Scientific Method requires that a working hypothesis be rigorously tested, and done in such a way that any and all results can be quantified and replicated. However, the Scientific Method does not require that the hypothesis be confirmed. If a test is structured properly, science advances regardless of whether the hypothesis is confirmed or denied. Either way, things are learned in the process. Too many scientists, including many of the archaeologists I know, remain quiet rather than risk being proven wrong. In the end, that attitude limits our scientific knowledge. The model that I am constructing to accompany the Rancholabrean Hypothesis may eventually be denied. But regardless, I believe that something useful will be learned in the process. On the other hand, should the model be confirmed, we may have another tool for helping locate the evidence left behind by the area’s first pioneers. I believe that is worth the risk of being proven wrong.

Msmoon

他的另外一篇论文。 没时间的就不用看了

http://www.parks.ca.gov/pages/22491/files/the_california_serengetti_pleistocene_paleoecology_of_san_francisco_bay.pdf

vinzkao

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戴欧尼

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