Chapter 7

Question 1

Ichthyosaurus

Answer 1

fish lizard

Question 2

What were some of Mary Anning’s discoveries?

Answer 2

She excavated a complete fossilized skeleton of an ichthyosaurus (fish lizard), Pterodactylus macronyx (flying creature), and a Plesiosaurus (fish creature)

Question 3

Why were Annings discoveries and contributions not recognized as much as they should have been?

Answer 3

Because the Geological Society of London was closed to women

Question 4

Extinct

Answer 4

terminated or vanished

Question 5

Extant

Answer 5

still surviving

Question 6

Deep Time

Answer 6

Scotsman James Hutton’s theory gave the history of Earth enough time—4.543 billion years—to encompass continental drift, the
evolution of species, and the fossilization process

Question 7

Uniformitarianism

Answer 7

Charles Lyell’s theory claimed the
doctrine that Earth’s geologic formations are the work of slow geologic forces

Question 8

Catastrophism

Answer 8

the belief that Earth’s formation was due to a set of relatively
quick biblical catastrophic events

Question 9

Fossils

Answer 9

the mineralized copies of once-living organisms

Question 10

Why was there such resistance to the idea that animals and people may have evolved over time?

Answer 10

To even consider that humans and animals might have evolved over time was practically an admission that the Christian God had made mistakes that needed correction in His creation of Earth and all living things. To think otherwise was considered heresy and was punishable by ex-communication from the Church—or even death. Instead, scientists were still trying to fit geologic evidence into Biblical chronology

Question 11

Why is the study of fossils important in anthropology?

Answer 11

because these answers provide insights into human evolution

Question 12

Eon

Answer 12

The largest subunit of geologic time

Question 13

Era

Answer 13

An eon is further divided into eras

Question 14

Period

Answer 14

eras are divided into periods

Question 15

Epoch

Answer 15

periods are divided into epochs

Question 16

Holocene

Answer 16

the current epoch

Question 17

Anthropocene

Answer 17

This has led some scientists within the stratigraphic community to argue for a new epoch beginning around 1950 with the Nuclear Age called the Anthropocene. The major event that marks the boundary is the warming temperatures and mass extinction of nonhuman species caused by human activity

Question 18

What are some arbitrary ways scientists might determine where one unit of time begins and another ends?

Answer 18

Events like
significant shifts in
climate or mass extinctions can be used to mark the end of one geologic time unit and the beginning of another

Question 19

Summarize the current debate about the epoch we are currently in. Include human activity in your answer.

Answer 19

Some say it is simply a warm blip in a larger epoch that includes the Pleistocene and not a new epoch called the Holocene. Others say human-driven climate change is warming the world and changing environmental patterns faster than the natural cyclical processes, which means a new epoch from the industrial revolution called the Anthropocene should be formed.

Question 20

Abraham Ortelius

Answer 20

Ortelius came up with the concept that one supercontinent called Pangea had existed much earlier in Earth’s history

Question 21

Pangea

Answer 21

One supercontinent called Pangea existed much earlier in Earth’s history. Approximately 200 million years ago, Pangea started to slowly break apart, with the resulting pieces of land shifting and moving through the process of continental drift.

Question 22

Continental Drift

Answer 22

Pangea started to slowly break apart, with the resulting pieces of land shifting and moving through the process of continental drift

Question 23

Laurasia

Answer 23

one of the two supercontinents

Question 24

Gondwanaland

Answer 24

one of the two supercontinents

Question 25

Alfred Wegener

Answer 25

There was a debate where there was suspicion that there wasn’t enough time for landmasses to move. However, he found fern fossils on every continent, which made him realize all of the continents had to have been connected at one point, which led him to create the tectonic plate theory.

Question 26

Glossopteris

Answer 26

the name of the fossilized remains of a fern that Alfred Wegner found

Question 27

Tectonic Plate Theory

Answer 27

Earth’s landmasses are relatively thin, brittle fragments floating on top of hot, squishy material. There is bound to be movement, even of large fragments. Furthermore, there are ridges or shelves in the Atlantic and Pacific Oceans that reflect the shifting of the planet’s crust. This theory not only supports the breakup of Pangea but also provides the basis for our current understanding of how earthquakes work.

Question 28

What does the Red Panda tell us about a “supercontinent?”

Answer 28

Red Panda fossils have been found four million years to the late Miocene era. They are considered living fossils because they have changed so little in millions of years and because they are represented in the fossil record. Thus, the existence of the red panda in the Miocene in the Appalachian Mountains but living only in Asia today is clear evidence that the red panda moved freely and that our continents were part of a supercontinent.

Question 29

Taphonomy

Answer 29

the study of what happens to an organism after death

Question 30

Why is taphonomy important in biological anthropology?

Answer 30

To obtain as much information as possible from the remains of once-living creatures, one must understand the processes that occur after death. It is so important that many scientists have recreated a variety of burial and decay experiments to track taphonomic change in modern contexts. These contexts can then be used to understand the taphonomic patterns seen in the fossil record

Question 31

What have anthropologists learned from Suddern Farm?

Answer 31

Since there is no universal or “normative” burial rite, taphonomic study is crucial to figuring out what cultural and ritual processes were operating at this time. P78 may represent a special ritual burial associated with violence or punishment. By better understanding the processes that occur in and to the body after death, we can reconstruct the cultural, biological, and geologic processes that affect remains.

Question 32

What might taphonomic analysis reveal about human culture, or the challenges people faced?

Answer 32

Taphonomic analysis can also give us important insights into the development of complex thought and rituals in human evolution. Taphonomy helped to establish whether these burials were simply the result of natural processes or intentionally constructed by humans. Taphonomic evidence may tell us how our ancestors died.

Question 33

Bog Bodies

Answer 33

a dead body that is preserved through peats/soil from wetlands

Question 34

Anaerobic

Answer 34

absence of oxygen

Question 35

Ice mummy

Answer 35

a specimen of human remains that is naturally mummified by extreme low temperatures.

Question 36

What are special circumstances in which bodies can be preserved for many years?

Answer 36

The most important element in the preservation of remains is a stable environment

Question 37

What role does oxygen play in the body’s decay?

Answer 37

Much of the bacteria that causes decay is already present in our gut and can begin the decomposition process shortly after death during putrefaction. Since oxygen is necessary for the body’s bacteria to break down organic material, the decay process is significantly slowed or halted in anaerobic conditions

Question 38

Fossilization

Answer 38

the preservation of an organism against these natural decay processes

Question 39

Lithification

Answer 39

the weight and pressure of the sediments squeeze out extra fluids and replace the voids, that appear in the remains as they decay, with minerals from the surrounding sediments. Lithification is how soft sediments, the end product of erosion, become rigid rock

Question 40

Premineralization

Answer 40

This is when the organism is fully replaced by minerals from the sediments

Question 41

Why don’t most creatures end up fossilized after death?

Answer 41

There are many stages in fossilization and if the process is disturbed at any of the stages, the organism will fail to become a fossil. After all, organisms are set up to deteriorate after we die. Bacteria, insects, scavengers, weather, and the environment all aid in the process that breaks down organisms so their nutrients, molecules, and elements can be returned to Earth to maintain ecosystems.

Question 42

Petrified wood

Answer 42

Another type of fossilized plant. This fossil is created when actual pieces of wood—such as the trunk of a tree—mineralize and turn into rock. Petrified wood is a combination of silica, calcite, and quartz, and it is both heavy and brittle. Petrified wood can be colorful and is generally aesthetically pleasing because all the features of the original tree’s composition are illuminated through mineralization.

Question 43

How does wood become petrified?

Answer 43

It forms when plant material is buried by sediment and protected from decay due to oxygen and organisms.

Question 44

Hominins

Answer 44

includes all human ancestors who existed after the evolutionary split from chimpanzees and bonobos

Question 45

Homo Sapiens

Answer 45

Modern humans are Homo sapiens

Question 46

Australopithicus Afarensis

Answer 46

is an extinct species of australopithecine which lived from about 3.9–2.9 million years ago (mya) in the Pliocene of East Africa

Question 47

“Lucy”

Answer 47

A hominin that is 3.2 million-year-old fossil of Australopithecus afarensis that was discovered in Ethiopia in 1974. Originally thought to be the most complete until the discovery of little foot.

Question 48

“Little Foot”

Answer 48

Little Foot is more complete than Lucy and possibly the oldest fossil that has so far been found, dating to at least 3.6 million years

Question 49

Sahelanthropus tchadensis

Answer 49

The oldest hominin fossil is a fragmentary skull named Sahelanthropus tchadensis, found in Northern Chad and dating to circa seven mya

Question 50

Amber

Answer 50

fossilized sap of coniferous trees

Question 51

How does amber preserve insects or other forms of life?

Answer 51

Sometimes pieces of amber contain inclusions such as air bubbles or insects that become trapped in the sap

Question 52

What actual discovery might provide insight into ancient DNA?

Answer 52

the recent discovery of a tick that fed off of dinosaur blood that is trapped in amber

Question 53

La Brea Tar Pits

Answer 53

A famous fossil site from California has asphalt that bubbles through the cracks in sidewalks

Question 54

Pleistocene

Answer 54

ice age era

Question 55

Megafauna

Answer 55

Large animals such as mammoths and mastodons

Question 56

Canis dirus

Answer 56

dire wolves

Question 57

Smilodan fatalis

Answer 57

saber-toothed cat

Question 58

Describe how asphalt preserves animal and plant remains.

Answer 58

perished animals are entrapped in the asphalt

Question 59

What has the Los Angeles basin taught scientists about life thousands of years ago?

Answer 59

The La Brea Tar Pits Museum provides an incredible look at the both extinct and extant animals that lived in the Los Angeles Basin 40,000–11,000 years ago

Question 60

Rhinocerotid skull

Answer 60

rhino skull. Part of a giant rhinocerotid skull dating back 9.2 mya to the Miocene was discovered in Cappadocia, Turkey, in 2010.

Question 61

Miocene

Answer 61

kelp first formed

Question 62

Why are so few fossils found in igneous rock?`

Answer 62

It is rare for fossils to survive molten lava, and it is estimated that only 2% of all fossils have been found in igneous rock

Question 63

Explain why the skull found in Turkey is an exception to this rule.

Answer 63

The rhino fossil was a remarkable find because the eruption of the Çardak caldera was so sudden that it simply dehydrated and “baked” the animal

Question 64

Trace Fossils

Answer 64

evidence of biological activity such as footprints, nests, burrows, tooth marks, shells

Question 65

Laetoli footprints

Answer 65

These 70 footprints, now referred to as the Laetoli Footprints, were created when early humans walked in wet volcanic ash in Tanzania

Question 66

Pech Merle Cave

Answer 66

At Pech Merle cave in the Dordogne region of France, archaeologists discovered two fossilized footprints. The approach worked as many other footprints belonging to as many as five individuals were discovered with the expert eyes of the trackers

Question 67

Bezoars

Answer 67

hard, concrete-like substances in the intestines of fossilized creatures

Question 68

Coprolite

Answer 68

fossilized dung

Question 69

In matrix

Answer 69

like all fossilized materials, can be in matrix—meaning that the fossil is embedded in secondary rock

Question 70

Phytoliths

Answer 70

65 million-year-old grass phytoliths microscopic silica in plants) found in dinosaur coprolite in India revealed that grasses had been in existence much earlier than scientists initially believed

Question 71

Give examples of trace fossils found around the world.

Answer 71

Tanzania and France.

Question 72

What can anthropologists learn from bezoars and coprolite?

Answer 72

anthropologists can glean a great deal of information from bezoars (intestines) and coprolite (dung) about the diets of ancient animals and the environment in which the food sources existed.

Question 73

Pseudofossils

Answer 73

pseudofossils are not misrepresentations but rather misinterpretations of rocks that look like true fossilized remains. Pseudofossils are the result of impressions or markings on rock, or even the way other inorganic materials react with the rock. A common example is dendrites, the crystallized deposits of black minerals that resemble plant growth

Question 74

Mary Leakey

Answer 74

British anthropologist who discovered fossilized animal tracks at Laetoli

Question 75

Laetoli

Answer 75

Animal tracks and footprints

Question 76

What special circumstances allowed the Laetoli footprints to be preserved?

Answer 76

Before the impressions were obscured, more volcanic ash and rain fell, sealing the footprints

Question 77

What did anthropologists learn about the hominins who made the tracks?

Answer 77

The footprints were made 3.6 mya. The footprints clearly indicate a bipedal hominin who had a foot similar to that of modern humans with short legs.

Question 78

Describe what is meant by “context.”

Answer 78

Objects and fossils are interesting in and of themselves, but without context there is only so much we can learn from them. One of the most important contextual pieces is the dating of an object or fossil. When it was made. By being able to place it in time, we can compare it more accurately with other contemporary fossils and artifacts or we can better analyze the evolution of a fossil species or artifacts.

Question 79

Relative Dating

Answer 79

they rely on simple observational skills. Christian Jürgensen Thomsen categorized the artifacts at the museum based on the idea that simpler tools and materials were most likely older than more complex tools and materials

Question 80

Christian Jurgensen Thomsen

Answer 80

Came up with the relative dating theory

Question 81

Stratigraphy

Answer 81

A relative dating method that is based on ordered layers or strata) that build up over time. Essentially, superposition tells us that things on the bottom are older than things on the top

Question 82

Nicholas Steno

Answer 82

first proposed the Law of Superposition

Question 83

James Hutton

Answer 83

further explored the Law of Superposition by Nicholas Steno

Question 84

Law of Superposition

Answer 84

Essentially, superposition tells us that things on the bottom are older than things on the top. It stands to reason that each layer is older than the one immediately on top of it

Question 85

Biostratigraphy

Answer 85

This form of dating looks at the context of a fossil or artifact and compares it to the other fossils and biological remains plant and animal) found in the same stratigraphic layers

Question 86

Cultural Dating

Answer 86

This relative dating technique is used to identify the chronological relationships between human-made artifacts. For instance, a pocket knife by itself is difficult to date. However, if the same pocket knife is discovered surrounded by cassette tapes and VHS tapes, it is logical to assume that the artifact came from the 1980s or 1990s like the cassette and VHS tapes.

Question 87

Fluorine Dating

Answer 87

Chemical dating was developed in the 19th century and represents one of the early attempts to use soil composition and chemistry to date artifacts. Fluorine Dating is a chemical type of dating. It is commonly used to compare the age of the soil around artifacts located in close proximity.

Question 88

Describe the “three age” system and its disadvantages.

Answer 88

The restriction of relative dating is that you don’t know specific dates or how much time passed between different sites or artifacts. You simply know that one artifact or fossil is older than another.

Question 89

How does cultural dating work? What does an anthropologist already need to know in order to effectively use cultural dating?

Answer 89

Both cultural dating and biostratigraphy are most effective when you are already familiar with the time periods for the artifacts and animals

Question 90

What is fluorine dating? Why can it be difficult to use? In what situations is it particularly useful?

Answer 90

Unfortunately, this absorption rate is highly sensitive to temperature, soil pH, and varying fluorine levels in local soil and groundwater. This makes it difficult to get an accurate date for the remains or to compare remains between two sites. However, this technique is particularly useful for determining whether different artifacts come from the same burial context

Question 91

How was fluorine dating used to determine that “Piltdown Man” was a forgery?

Answer 91

Fluorine analysis determined that the jaw and cranium in piltdown man had different fluorine signatures. Thus, these bones could not have come from the same individual in the same burial environment

Question 92

Chronometric Dating

Answer 92

provides specific dates and time ranges. Many of the chronometric dating methods are based on the measurement of radioactive decay of particular elements.

Question 93

Elements

Answer 93

are materials that cannot be broken down into more simple materials without losing their chemical identity

Question 94

Atom

Answer 94

Each element consists of an atom that has a specific number of protons positively charged particles) and electrons negatively charged particles) as well as varying numbers of neutrons particles with no charge)

Question 95

Isotopes

Answer 95

Atoms of a given element that have different numbers of neutrons are known as isotopes

Question 96

Stable Isotopes

Answer 96

Most isotopes in nature are considered stable isotopes and will remain in their normal structure indefinitely.

Question 97

Unstable Isotopes

Answer 97

However, some isotopes are considered unstable isotopes sometimes called radioisotopes) because they spontaneously release energy and particles, transforming into stable isotopes

Question 98

Radioactive Decay

Answer 98

The process of transforming the atom by spontaneously releasing energy is called radioactive decay.

Question 99

Radiocarbon Dating

Answer 99

The leading chronometric method for archaeology is radiocarbon dating. This change occurs at a predictable rate for nearly all radioisotopes of elements, allowing scientists to use unstable isotopes to measure time passage from a few hundred to a few billion years with a large degree of accuracy and precision.

Question 100

Potassium-argon (K-Ar) Dating

Answer 100

can reach further back into the past than radiocarbon dating. Used to date volcanic rock, these techniques are based on the decay of unstable potassium into argon gas, which gets trapped in the crystalline structures of volcanic material.

Question 101

Fission Track Dating

Answer 101

is another useful dating technique for sites that are millions of years old. This is based on the decay of radioactive uranium. The unstable atom of uranium fissions at a predictable rate. The fission takes a lot of energy and causes damage to the surrounding rock.

Question 102

Luninescence Dating

Answer 102

which includes thermoluminescence and a related technique called optically stimulated luminescence, is based on the naturally occurring background radiation in soils. Pottery, baked clay, and sediments that include quartz and feldspar are bombarded by radiation from the soils surrounding it. When heated to 500°C thermoluminescence) or exposed to particular light wavelengths optically stimulated luminescence) in the laboratory, this energy gets released in the form of light and heat and can be measured

Question 103

Electron Spin Resonance Dating

Answer 103

is based on the measurement of accumulated background radiation from the burial environment. It is used on artifacts and rocks with crystalline structures, including tooth enamel, shell, and rock—those for which thermoluminescence would not work

Question 104

Dendrochonology

Answer 104

It is based on the natural growth patterns of trees. As most of you probably learned in elementary school, trees create concentric rings as they grow. The width of those rings depends on environmental conditions and season. In a perfect world, you can tell the age of a tree by counting the rings.

Question 105

Amino acid racemization

Answer 105

is a dating method that is used for organic materials such as bones, teeth, and shell. Organic tissues include amino acids that help build their structure

Question 106

How is chronometric dating different from relative dating?

Answer 106

Based on radiation

Question 107

Why do unstable isotopes give scientists clues about the age of an artifact or a fossil? In your answer, use as many words from the center column as possible).

Question 108

How does radiocarbon dating work? What are some of its limitations?

Question 109

How does K-Ar and Ar-Ar dating work? What advantage do these methods have over radiocarbon dating?

Question 110

How does Fission Track dating work? When would scientists use this method?

Question 111

How does luminescence dating work? When would anthropologists use it?

Question 112

How does Electron spin resonance dating work? When would scientists use it?

Question 113

What information can dendrochronology provide to scientists? What are some challenges in using it?

Question 114

Paleomagnetic/ Geomagnetic reversals

Answer 114

the poles are actually magnetic fields, and geomagnetic poles are not located in the same places as geographic poles. Just to complicate the matter, magnetic poles move around

Question 115

How does amino acid racemization work? What dating method is it similar to?

Question 116

Describe paleomagnetic/geomagnetic reversals. How can they help scientists determine the age of rocks?

Question 117

What implications for the future might these reversals have?

Question 118

Sediment cores

Answer 118

Core samples taken from lake beds or other water sources for analysis of their pollen

Question 119

What can the environment tell us about the creatures who lived in it?

Answer 119

Another important part of understanding human evolution and evolution in general) is understanding the way in which an organism’s environment affects its survival.

Question 120

What information can sediment cores give us?

Answer 120

By taking a core sample and analyzing the pollen and other organic material, an archaeologist can build a timeline of plant types and see changes in the vegetation of the area.

Question 121

How do stable isotopes help scientists identify what kind of an environment an animal or a plant lived in?

Answer 121

Stable isotopes can be powerful tools for identifying where an organism grew up and what kind of food the organism ate throughout its life. They can even be used to identify global temperature fluctuations

Question 122

Glacial periods

Answer 122

Periods characterized by low global temperatures and the expansion of ice sheets on Earth’s surface.

Question 123

Foraminifera

Answer 123

The microorganisms that live in the oceans absorb the water from their environment and use the oxygen isotopes in their body structures

Question 124

What can 16O and 18O tell us about ocean temperature?

Answer 124

Cooler temperatures indicate higher ratios of 18O.

Question 125

How can microorganisms that lived and died in oceans help us understand water temperature of the past?

Answer 125

Scientists can extract these ocean cores and sample the remains of foraminifera for their 18O and 16O ratios. These ratios will give a good approximation of global temperatures deep into the past.

Question 126

Explain how analyzing the carbon in bones and teeth can help scientists determine what kind of plants an animal or person ate.

Answer 126

By analyzing the stable isotopes in the bones and teeth of humans and other animals, we can identify the types of food they ate at different stages of their lives as well as where they lived

Question 127

How can scientists determine if a person’s diet was primarily vegetarian or meat-based?

Answer 127

An animal who has a mostly vegetarian diet will have lower ratios of 15N to 14N, those further up the food chain, like carnivores, will have higher ratios of 15N.

Question 128

How else can scientists use ratios of 15N to determine what kind of diet a person ate?

Answer 128

It can help anthropologists figure out when meat became a primary part of the ancient human diet or when marine resources began to be used.

Question 129

Isotopic signatures

Answer 129

These variations in the ratios of isotopes of certain elements. If you ate and drank local water all of your life, your bones and teeth would have the same isotopic signature as the geographical region in which you lived

Question 130

Why would an animal’s bones and teeth have different isotopic signatures?

Answer 130

If an individual has different isotopic signatures for their bones and teeth, it could indicate a migration some time during their life after childhood.

Question 131

Mitochondrial DNA

Question 132

What important conclusions were scientists about to make about Naia’s DNA?

Answer 132

recovered from a tooth indicates that Naia shares her DNA with modern Native Americans whose DNA has been linked conclusively to ancestors in Siberia

Question 133

What methods did scientists use to analyze Naia’s remains and determine how many years ago she lived?

Answer 133

radiocarbon dating
mitochondrial DNA