新SAT 真题讲义Khan Academy 阅读真题68篇
Line 5 10 15 20 25
30
35 40
45
50
55
60
65
70
75
1
2
1
2
Question 1-11 are based on the following passage.
This passage is excerpted from Joseph Mascaro, Gregory P
Asner, Stuart Davies, Alex Dehgan, and Sassan Saatchi,
“These Are the Days of Lasers in the Jungle,” ?2014 by
Joseph Mascaro, et al.
Just as the Moon’s history was disrobed by laser ranging
50 years ago, Earth’s tropical forests are giving up their
secrets to the light. Airborne light detection and ranging-
called LiDAR-has over the last ten years become a key tool
that ecologists use to understand physical variation in
tropical forests across space and time. Like an MRI of the
human brain, LiDAR probes the intricate three-dimensional
architecture of the forest canopy, unveiling carbon that
forests keep out of the atmosphere, and also the mounting
threats to that carbon storehouse: drought, ?re, clandestine
logging and brash gold-mining operations. Even the
quintessential natural disturbance of the sun-?lled light gap
—long thought to enhance the incredibly high species
diversity of tropical forests—has been deconstructed by laser
technology.
Laser ranging in tropical forests is such a game-changing
technology that science results can scarcely get through peer-
review before they are dwarfed by still larger-scale studies.
In a decade, laser power on commercial-grade LiDARs has
skyrocketed and costs have plummeted. These improvements
in LiDAR technology allow airplanes to ?y faster, higher and
farther, covering more forest area in a single day than every
ground-based survey that has ever been collected in the
history of tropical ecology. To estimate the amount of carbon
stored in a 50-hectare tropical forest monitoring plot on the
ground—the largest ?eld plot in the world—takes a team of
12 people about eight months: a slog of rain and mud and
snakes with tape measures and data log books. Today’s
airborne LiDARs can get you to within about 10% of the
same carbon estimate in eight seconds.
It is this staggering contrast in scale between LiDAR and
?eldwork that led us here: Before this decade is out, we
could directly assess the carbon stock of every single square
hectare of tropical forest on Earth.We could do it just as well
as if we were standing there in the ?esh with tape measures
in hand. And we could do it for far less than what we have
already spent to offset carbon emissions from forests. . . .
It is easy in principle, though logistically nightmarish, to
measure carbon in tropical forests. A strict constructionist
would cut, dry and weigh the biomass of the world’s forests.
But this is a self-defeating enterprise. As a result, it is likely
that no one has measured carbon over a single hectare of
tropical forest, even with the most detailed ?eld surveys. For
a century ecologists and foresters have relied on allometric
estimation in lieu of carbon measurements to translate ?eld
surveys of tree diameters, heights and wood densities into
whole-forest carbon estimates. Given a volume with known
dimensions and density, one would estimate its mass in a
similar fashion.
As the new kid on the block, LiDAR has been tacked onto
the back end—initially thought of as kind of large-scale
helper to ?eld surveys. Carbon estimates from the ?eld have
been treated as something inherently closer to the real thing
than measurements made by LiDAR—ground “Truth” with a
capital “T”. This is perhaps understandable historically, but
vis-à-vis actual carbon, there is no such thing as ground truth:
both ?eld and LiDAR efforts rely on allometry to convert
measurements into carbon estimates. Prior to using these
measurements for carbon estimation, they exist as
standardized, spatially explicit, archivable and veri?able data
-the needed substrate for a REDD -type accounting
program.
Due to the constancy of the underlying measurements,
both ?eld and LiDAR data could provide the needed
information if they covered every hectare on Earth. But, in
the case of ?eld surveys, this is impossible. The surveys that
do exist measure a tiny amount of actual forest, and so what
might be veri?ed is widely spaced. And to avoid fraud and
protect landowners, many governments keep their plot
locations secret. Satellite LiDAR data remain sparse,
providing only extrapolated, coarse-resolution carbon
estimates with very high uncertainties, and there is no
prospect of wall-to-wall coverage in the near future. By
2020, airborne LiDAR could give us a direct measurement of
3-D forest structure for every hectare in the tropics: a
standardized database from which to build a carbon
economy.
Pertaining to the study of changing proportions in part of
an organism or body resulting from growth.
Reduced Emissions from Deforestation and Degradation, a
program implemented by the United Nations Framework
Convention on Climate Change.
Carbon Biomass and Mean Canopy Height (MCH) in Different
Types of Forests
The graph illustrates the relationship in different types of forests between mean canopy vertical height pro?les (MCH), as measured by LiDAR, and ?eld-based estimates of carbon biomass.Adapted from Gregory P . Asner, "Tropical Forest Carbon Assessment: Integrating Satellite and Airborne Mapping
Approaches." ?2010 Institute of Physics and IOP Publishing.
1 The authors' central claim in the passage is that
A) LiDAR’s opponents have prevented the technology from advancing to a point where it might be scienti?cally useful, favoring traditional methods.
B) Fieldwork and LiDAR are best used in combination when mapping carbon in tropical forests, in order to avoid human error while maintaining accuracy.
C) LiDAR is as important a technology as MRI scanning or the scienti?c study of the moon with lasers.
D) LiDAR technology is faster, cheaper, and nearly as accurate as traditional ?eld methods for measuring the carbon biomass on Earth.
2 In the ?rst paragraph, the words “disrobed,” “unveiling” and “deconstructed” primarily serve to
A) highlight the negative connotations that laser technology currently has.
B) emphasize the extensive reach of laser technology.
C) demonstrate the inherently unknowable characteristics of objects, even with laser technology.
D) implicitly compare lasers to other forms of technology. 3 The authors imply that the main bene?t of using LiDAR, as opposed to ?eldwork, for measuring carbon in tropical forests is the
A) scale and rapidity with which LiDAR can be used.B) expense of hiring scientists to carry out ?eldwork.
C) rapid changes and improvements in LiDAR technology.D) precision of LiDAR, which eliminates human error. 4 Which choice provides the best evidence for the answer to the previous question?
A) lines 19–20 (“In . . . plummeted”)B) lines 20–22 (“These . . . farther”)C) lines 32–34 (“Before . . . Earth”)D) lines 34–36 (“We could . . . hand”)
5 As used in line 45, “translate” most nearly means A) convert.B) move.C) transform.D) express.
6 The authors use the phrase “ground “Truth” with a capital “T” (lines 54–55) in order to
A) argue that ?eld measurements should be given up in order to focus exclusively on LiDAR measurements.B) illustrate the impossibility of ever gaining accurate and usable measurements from either ?eldwork or LiDAR.C) defend the idea that LiDAR measurements are inherently more accurate than measurements obtained via ?eldwork.D) note the excessive faith scientists have put in the accuracy of ?eld-survey estimates.
7 The authors imply that the response of various of?cials to attempts to measure their countries’ carbon stock through
?eld surveys has been
A) unhelpful, because they fear that jobs for their countries’ scientists will be lost.
B) helpful, because their countries have invested
signi?cantly in technology to allow studies to expand. C) helpful, because their countries stand to bene?t from
universal carbon data that the studies will uncover.
D) unhelpful, because they do not make their countries’ land holdings readily available for study.
8 Which choice provides the best evidence for the answer to the previous question?
A) lines 63–65 (“Due . . . Earth”)
B) lines 66–68 (“The surveys . . . spaced”)
C) lines 68–70 (“And . . . secret”)
D) lines 70–73 (“Satellite . . . future”)
9 The data in the graph support the authors' point in paragraph ?ve (lines 50–62) about the uses of LiDAR by
A) providing an example of the use of information from LiDAR in conjunction with traditional ?eld-based estimates.
B) comparing data gathered by LiDAR technology from three separate forest sites.
C) showing LiDAR’s superior accuracy compared to data gathered through ?eldwork, even though the graph uses estimated ?gures.
D) presenting an example of the use of LiDAR in a tropical forest, which until this study was purely hypothetical.
10 It can reasonably be inferred from the graph that
A) for the same mean canopy height (above 25 MCH^2), tropical forests have more carbon biomass than temperate forests.
B) there is an inverse relationship between mean canopy vertical height and aboveground carbon biomass.
C) at a mean canopy height of 625 MCH^2, all three types of forests depicted will have approximately the same aboveground carbon biomass.
D) on average, the new tropical forest has less aboveground carbon biomass at a given canopy height than the boreal-temperate forest depicted. 11 The information from the graph best supports the claim that the carbon biomass of the three forests depicted is most disparate at
A) 25 MCH^2
B) 225 MCH^2
C) 400 MCH^2
D) 900 MCH^2
Line 5 10 15 20 25 30 35
40
45
50
55
60
65
Question 1-11 are based on the following passage.
Passage 1 is excerpted from Linden Miles, "The Meandering
Mind: Vection and Mental Time Travel," ?2010 by Linden
Miles. Passage 2 is excerpted from Justin Gregg, "A New
Frontier in Animal Intelligence," ?2013 by Scienti?c
American.
Passage 1
The ability to travel mentally through time sets humans
apart from many other species, yet little is known about this
core cognitive capacity. In particular, what shapes the
passage of the mind's journey through time?
A core facet of conscious experience is that one's mind
periodically wanders from the here-and-now. From memories
of lost loves to expectations about forthcoming vacations,
mental time travel (MTT) makes it possible to revisit the past
and pre-experience the future. Present across cultures and
emerging early in childhood, MTT is believed to serve a
pivotal function in human cognition. When confronted with
complex and challenging judgments, simulating future
outcomes (i.e., prospection) on the basis of prior experience
(i.e., retrospection) is a tactic that optimizes decision-making
and behavioral selection. That the past informs the future in
this way (i.e., recollection-guides-simulation) is evidenced
from research demonstrating that retrospection and
prospection rely on largely overlapping neural structures and
cognitive operations.
However, remarkably little is known about the actual
process of MTT and how it impacts people's behavior. In this
respect, one emerging possibility is that MTT may be
represented in the sensory-motor systems that regulate
human movement (i.e., MTT is embodied). Put simply,
traveling mentally in time may initiate associated bodily
movements through space. Initial evidence for such a
thought-action coupling during MTT was reported in a study
in which spontaneous ?uctuations in the direction and
magnitude of postural sway were assessed while participants
engaged in either retrospective or prospective mental
imagery. The results revealed that the temporal locus of MTT
did indeed in?uence the direction of people's movements -
whereas retrospection was accompanied by signi?cant
backwards sway, prospection yielded postural movement in
an anterior direction.
Passage 2
Santino was a misanthrope with a habit of pelting tourists
with rocks. As his reputation for mischief grew, he had to
devise increasingly clever ways to ambush his wary victims.
Santino learned to stash his rocks just out of sight and
casually stand just a few feet from them in order to throw off
suspicion. At the very moment that passersby were fooled
into thinking that he meant them no harm, he grabbed his
hidden projectiles and launched his attack.
Santino, you see, is not human. He’s a chimpanzee at
Furuvik Zoo in Sweden. His crafty stone-throwing escapades
have made him a global celebrity, and also caught the
attention of researchers studying how animals, much like
humans, might be able to plan their behavior.
Santino is one of a handful of animals that scientists
believe are showing a complex cognitive ability called
episodic memory. Episodic memory is the ability to recall
past events that one has the sense of having personally
experienced. Unlike semantic memory, which involves
recalling simple facts like “bee stings hurt,” episodic memory
involves putting yourself at the heart of the memory; like
remembering the time you swatted at a bee with a rolled up
newspaper and it got angry and stung your hand.
If an animal can imagine itself interacting with the world
in the past via episodic memory - like Santino recalling a
failed attack when a human spotted him holding a rock, or
you remembering swatting at a bee - it stands to reason that
the animal might also be able to imagine itself in the future in
a similar scenario, and thus plan its behavior. Santino might
opt to hide his rocks, and you might decide to stop
antagonizing bees. The ability to represent oneself and one’s
actions in the mind’s eye - both in the past [and] in the future
is what scientists refer to as “mental time travel.”
1
Over the course of passage 1, the main focus shifts from
A) a scienti?c study about mental time travel to an
example of how humans use mental time travel in their
daily lives.
B) a description of the evolution of mental time travel to an
evaluation of its limitations in humans.
C) an explanation of mental time travel to a description of a
study about its neurological basis.
D) an argument in support of the existence of mental time
travel to a counter-argument refuting its existence in
humans.
2
It can reasonably be inferred from passage 1 that, in
humans, the existence of mental time travel
A) begins before birth.
B) continues to develop throughout adulthood.
C) is universal.
D) is limited to certain populations around the world.
3 Which choice provides the best evidence for the answer to the previous question?
A) lines 1–2 (“The . . . species”)
B) lines 6–9 (“From . . . future”)
C) lines 9–10 (“Present . . . childhood”)
D) lines 11–15 (“When . . . selection”)
4 As used in line 11, “pivotal” most nearly means
A) critical
B) basic
C) overriding
D) urgent
5 In the ?rst paragraph of passage 2, the use of the words “mischief,” “clever,” and “fooled” serves mainly to
A) suggest that Santino had a violent disposition.
B) call attention to Santino’s advanced cognitive abilities.
C) imply that Santino was smarter than most chimpanzees.
D) illustrate Santino’s reliance on semantic memory.
6 The author of passage 2 indicates that Santino’s use of episodic memory is most evidenced by his
A) ability to recall past experiences.
B) accuracy when throwing objects.
C) disinterest in other chimpanzees.
D) tendency to interact with humans.
7 According to passage 2, which choice best summarizes the relationship between episodic and semantic memory?
A) Episodic memory is a more advanced form of semantic memory.
B) Episodic memory relies on personal experiences while semantic memory relies on fact recollection.
C) Episodic memory is an essential component of
consciousness while semantic memory is not.
D) Some animals are capable of episodic memory, but all animals are capable of semantic memory.
8 Which choice provides the best evidence for the answer to the previous question?
A) lines 45–48 (“His . . . behavior”)
B) lines 49–51 (“Santino . . .memory”)
C) lines 53–55 (“Unlike . . . memory”)
D) lines 65–67 (“The . . . travel”) 9 The authors of passage 1 and passage 2 would likely agree about which of the following characteristics of mental time travel?
A) That it is similar to the concept of semantic memory
B) That it is a sophisticated cognitive ability
C) That it is present throughout the animal kingdom
D) That it can affect the positioning and movement of the body
10 Which of the following types of evidence is relied upon in passage 1 but not in passage 2?
A) Expert testimonies
B) Personal narratives
C) Scienti?c studies
D) Historical data
11 The author of passage 1 would likely use which of the following terms to describe Santino’s ability to recall past events?
A) Retrospection
B) Prospection
C) Simulation
D) Semantic memory
Line 5 10 15 20 25 30 35 40 45
50
55
60
Question 1-11 are based on the following passage.
This passage is excerpted from David B. Wake and Vance T.
Vredenburg, "Amphibians in Crisis." ?2008 by The National
Academy of Sciences of the USA.
Amphibians have received much attention during the last
two decades because of a now-general understanding that a
larger proportion of amphibian species are at risk of
extinction than those of any other taxon.* Why this should be
has perplexed amphibian specialists. A large number of
factors have been implicated, including most prominently
habitat destruction and epidemics of infectious diseases;
global warming also has been invoked as a contributing
factor. What makes the amphibian case so compelling is the
fact that amphibians are long-term survivors that have
persisted through the last four mass extinctions.
Paradoxically, although amphibians have proven
themselves to be survivors in the past, there are reasons for
thinking that they might be vulnerable to current
environmental challenges and, hence, serve as multipurpose
sentinels of environmental health.The typical life cycle of a
frog involves aquatic development of eggs and larvae and
terrestrial activity as adults, thus exposing them to a wide
range of environments.
Frog larvae are typically herbivores, whereas adults are
carnivores, thus exposing them to a wide diversity of food,
predators, and parasites. Amphibians have moist skin, and
cutaneous respiration is more important than respiration by
lungs. The moist, well vascularized skin places them in
intimate contact with their environment. One might expect
them to be vulnerable to changes in water or air quality
resulting from diverse pollutants. Amphibians are thermal-
conformers, thus making them sensitive to environmental
temperature changes, which may be especially important for
tropical montane (e.g., cloud forest) species that have
experienced little temperature variation. Such species may
have little acclimation ability in rapidly changing thermal
regimes. In general, amphibians have small geographic
ranges, but this is accentuated in most terrestrial species (the
majority of salamanders; a large proportion of frog species
also ?t this category) that develop directly from terrestrial
eggs that have no free-living larval stage. These small ranges
make them especially vulnerable to habitat changes that
might result from either direct or indirect human activities.
Living amphibians (Class Amphibia, Subclass
Lissamphibia) include frogs (~5,600 currently recognized
species), salamanders (~570 species), and caecilians (~175
species). Most information concerning declines and
extinctions has come from studies of frogs, which are the
most numerous and by far the most widely distributed of
living amphibians.Salamanders facing extinctions are
centered in Middle America.Caecilians are the least well
known; little information on their status with respect to
extinction exists.
The Global Amphibian Assessment completed its ?rst
round of evaluating the status of all then-recognized species
in 2004, ?nding 32.5% of the known species of amphibians
to be “globally threatened” by using the established top three
categories of threat of extinction (i.e. Vulnerable,
Endangered, or Critically Endangered); 43% of species have
declining populations. In general, greater numbers as well as
proportions of species are at risk in tropical countries.
Updates from the Global Amphibian Assessment are ongoing
and show that, although new species described since 2004
are mostly too poorly known to be assessed, >20% of
analyzed species are in the top three categories of threat.
Species from montane tropical regions, especially those
associated with stream or streamside habitats, are most likely
to be severely threatened.
*A group of one or more populations of an organism or
organisms seen by taxonomists to form a unit.
Breakdown of Known Amphibian Species, by Red List
Category
Adapted from Stuart, S.N., Hoffman, M., Chanson, J.S., Cox, N.A.,
Berridge, R.J., Ramani, P., and Young, B.E. (eds), Threatened
Amphibians of the World. ?2008 by Lynx Editions.
1 The main idea of the ?rst two paragraphs is that amphibians A) have traditionally been very persistent but are now
disproportionately endangered.
B) face a risk of extinction greater than that of any other
group of organisms.
C) have been praised by scientists for their ability to
withstand the last four mass extinctions.
D) now face extinction across all species because of human activity.
2 As used in line 9, “compelling” most nearly means
A) urgent.
B) captivating
C) overwhelming
D) forced.
3 The author implies that the study of frogs and other amphibians is especially important because these species A) are sensitive to environmental changes that might affect other species in the future.
B) have less ability to adapt to changing environmental
conditions than other species do.
C) are exposed to more predators and parasites than other species are.
D) embody the principles of evolution more clearly and
linearly than other species do.
4 Which choice provides the best evidence for the answer to the previous question?
A) lines 12–16 (“Paradoxically . . . health”)
B) lines 16–19 (“The typical . . . environments”)
C) lines 20–22 (“Frog . . . parasites”)
D) lines 22–24 (“Amphibians . . . lungs”)
5 The author discusses the thermal conformity of amphibians in order to
A) show why they are so susceptible to being harmed by changes in their environments.
B) contrast them with other types of animals that other
scientists have studied in greater depth.
C) prove that amphibians are the most sensitive of all
animals and therefore need to be treated with greater
care.
D) question why the geographic ranges of amphibians is so small compared to that of other species. 6 Frogs have been studied more than other amphibians because A) members of other species are less common and not found in as many places.
B) they model human biology better than other amphibians.
C) so many other amphibian species have recently become extinct.
D) their sensitivity to environments makes them ideal for
study.
7 Which choice provides the best evidence for the answer to the previous question?
A) lines 40–43 (“Living . . . species.”)
B) lines 43–46 (“Most . . . amphibians”)
C) lines 46–47 (“Salamanders . . . America”)
D) lines 47–49 (“Caecilians . . . exists”)
8 The phrase “globally threatened” (line 53) primarily
serves to
A) show that scientists consider amphibians’ future perilous by the seriousness of the terms.
B) lend authority to the author’s argument about amphibian extinction by using a well-recognized phrase.
C) quote the scientists at The Global Amphibian Assessment so that readers understand the limited nature of their
statistics.
D) demonstrate that, though amphibians have been referred to as threatened, this term is questionably applied.
9 The graph supports the statement in the last paragraph about the evaluation completed in 2004 by
A) demonstrating that approximately ? of amphibian
species are in the top three categories of threat.
B) showing that only 1% of amphibians have gone extinct in the wild, despite predictions to the contrary.
C) highlighting that scientists have not collected enough data on a signi?cant number of amphibian species.
D) proving that the remaining species of amphibians will
become extinct in the future.
10 Information from the graph and the passage suggests that the second-largest category includes most of the world’s
A) caecilians.
B) salamanders.
C) frogs.
D) montane amphibians.
11 The third-largest category represents amphibians that are classi?ed as
A) endangered.
B) least concern.
C) extinct.
D) vulnerable.
Line 5 10 15 20 25 30 35 40 45 50Question 1-11 are based on the following passage.
Adapted from Abi Berger, "Magnetic Resonance Imaging,"
?2002 by Abi Berger.
Magnetic resonance imaging (MRI) uses the body's
natural magnetic properties to produce detailed images from
any part of the body. For imaging purposes the hydrogen
nucleus (a single proton) is used because of its abundance in
water and fat.
The hydrogen proton can be likened to the planet earth,
spinning on its axis, with a north-south pole. In this respect it
behaves like a small bar magnet. Under normal
circumstances, these hydrogen proton “bar magnets” spin in
the body with their axes randomly aligned. When the body is
placed in a strong magnetic ?eld, such as an MRI scanner,
the protons' axes all line up. This uniform alignment creates a
magnetic vector oriented along the axis of the MRI scanner.
MRI scanners come in different ?eld strengths, usually
between 0.5 and 1.5 tesla.
The strength of the magnetic ?eld can be altered
electronically from head to toe using a series of gradient
electric coils, and, by altering the local magnetic ?eld by
these small increments, different slices of the body will
resonate as different frequencies are applied.
When the radiofrequency source is switched off the
magnetic vector returns to its resting state, and this causes a
signal (also a radio wave) to be emitted. It is this signal
which is used to create the MR images. Receiver coils are
used around the body part in question to act as aerials to
improve the detection of the emitted signal. The intensity of
the received signal is then plotted on a grey scale and cross
sectional images are built up.
Multiple transmitted radiofrequency pulses can be used in
sequence to emphasise particular tissues or abnormalities. A
different emphasis occurs because different tissues relax at
different rates when the transmitted radiofrequency pulse is
switched off. The time taken for the protons to fully relax is
measured in two ways. The ?rst is the time taken for the
magnetic vector to return to its resting state and the second is
the time needed for the axial spin to return to its resting state.
The ?rst is called T1 relaxation, the second is called T2
relaxation.
An MR examination is thus made up of a series of pulse
sequences. Different tissues (such as fat and water) have
different relaxation times and can be identi?ed separately. By
using a “fat suppression” pulse sequence, for example, the
signal from fat will be removed, leaving only the signal from
any abnormalities lying within it.
Most diseases manifest themselves by an increase in water
content, so MRI is a sensitive test for the detection of
disease. The exact nature of the pathology can be more
dif?cult to ascertain: for example, infection and tumour can
in some cases look similar. A careful analysis of the images
by a radiologist will often yield the correct answer.
There are no known biological hazards of MRI because,
unlike x ray and computed tomography, MRI uses radiation
in the radiofrequency range which is found all around us and
does not damage tissue as it passes through.
Magnetic Vector (T1) and Axial Spin (T2) Relaxation Times for
Different Molecules/Tissues, in Milliseconds.
Source: Data from Bottomley PA, et al. "A Review of Normal Tissue
Hydrogen NMR Relaxation Times and Relaxation Mechanisms from
1-100 MHz: Dependence on Tissue Type, NMR Frequency,
Temperature, Species, Exision, and Age." Med Phys
1984;11:425-448
1
Which choice best re?ects the author’s point of view
regarding magnetic resonance imaging (MRI)?
A) It is the most important tool used by scientists to aid in
the diagnosis of particular diseases.
B) It is a valuable and effective technique but should be
used sparingly in order to prevent possible damage to
the body.
C) It is a breakthrough technology that will revolutionize
the treatment of particular ailments.
D) It is a useful tool in disease diagnosis, although
specialized training is required to accurately interpret
MRI images.
2
Which choice provides the best evidence for the answer to
the previous question?
A) lines 16–20(“The strength . . . applied”)
B) lines 29–33(“Multiple . . . off”)
C) lines 40–44(“Different . . . it”)
D) lines 45–50 (“Most . . . answer”)
3
It can reasonably be inferred from the passage that, like a bar magnet, the nucleus of a hydrogen atom
A) spins in a counter-clockwise direction.
B) is responsive to external magnetism.
C) attracts metallic substances.
D) is surrounded by electrons.
4 Over the course of the passage, the main focus shifts from A) an explanation of how magnetic resonance imaging (MRI) works to a discussion of MRI’s practical
advantages.
B) a story about the origin of magnetic resonance imaging (MRI) to a discussion of alternative imaging methods used by scientists.
C) an explanation of tissue relaxation rates to a summary of the magnetic properties of hydrogen protons.
D) an introduction about the properties of radiofrequency waves to a criticism of the health risks of x-ray devices.
5 The “planet earth” image in line
6 mainly serves to
A) highlight an unlikely parallel between the ?elds of
biology and astronomy.
B) inject a note of humor into an otherwise serious
explanation of magnetic resonance imaging.
C) create a pun centered on the idea that hydrogen is
necessary for life on this planet.
D) communicate a complex scienti?c idea using a more
familiar concept.
6
It can reasonably inferred from the passage that electromagnetic waves in the radiofrequency range
A) do not create long-lasting effects on the human body.
B) only create magnetic ?elds in tissues with high water
content.
C) are stronger than waves in the x-ray range.
D) always travel in the same direction.
7 Which choice provides the best evidence for the answer to the previous question?
A) lines 21–23 (“When . . . emitted”)
B) lines 26–28 (“The . . . up”)
C) lines 33–36 (“The time . . . state”)
D) lines 51–54 (“There . . . through”) 8 As used in line 46, “sensitive” most nearly means
A) appreciative
B) unstable
C) discerning
D) observant
9 The data in the table support the author’s point that
A) pulse relaxation times can be used to identify different tissues in the body.
B) magnetic resonance imaging is safer than other
imaging techniques.
C) infections and tumors look similar using magnetic
resonance imaging.
D) hydrogen protons behave like a small bar magnet.
10 According to the table, which tissue is the ?rst to return to its original magnetic vector resting state?
A) Water/CSF
B) Liver
C) Fat
D) Tendon
11 It can reasonably be inferred from the table that
A) some tissues display axial spin relaxation times that are much longer than their magnetic vector relaxation times.
B) it generally takes longer for the magnetic vector to return to its resting state than the axial spin.
C) it often takes twice as long for the axial spin to return to its resting state than the magnetic vector.
D) it always takes at least three times as long for the
magnetic vector to return to its resting state than the axial spin.
Line 5 10 15 20 25 30 35 40 45
50
55
60
65
70
75
80
Question 1-11 are based on the following passage.
This passage is excerpted from Leyra Castro and Ed
Wasserman, “Crows Understand Analogies,” ? Scienti?c
American 2015.
A recent research collaboration has discovered that crows
exhibit strong behavioral signs of analogical reasoning—the
ability to solve puzzles like “bird is to air as ?sh is to what?”
Analogical reasoning is considered to be the pinnacle of
cognition and it only develops in humans between the ages of
three and four.
Why might crows be promising animals to study? Of
course, crows are reputed to be clever. Aesop’s famous fable
“The Crow and the Pitcher” tells of a crow solving a
challenging problem: the thirsty crow drops pebbles into a
pitcher with water near the bottom, thereby raising the ?uid
level high enough to permit the bird to drink. Such tales are
charming and provocative, but science cannot rely on them.
Recent scienti?c research sought to corroborate this fable.
It found that crows given a similar problem dropped stones
into a tube containing water, but not into a tube containing
sand. Crows also chose to drop solid rather than hollow
objects into the water tube. It thus seems that crows do
indeed understand basic cause-effect relations.
But, what happens when crows are given problems that
require more abstract thinking? Before setting our sights on
analogical reasoning, we might begin with a simpler abstract
task. For example, sameness and differentness are key
abstract ideas, because two or more items of any kind—
coins, cups, caps, or cars—can be the same as or different
from one another. Because sameness and differentness can be
detected visually, perhaps that may provide an elegant way to
study their apprehension by nonverbal animals.
To do so, we present visual stimuli on a touchscreen
monitor. We reward animals with food for contacting one
button when sets contain identical items and we reward
animals for contacting a second button when sets contain
non-identical items. Several species of birds and mammals
learn this task and also transfer their learning to new stimuli,
showing that they have learned an abstract concept, which
extends beyond the training items.
Devising a task to study analogical thinking in animals is
the next step. Here, the gist of analogy can be captured by
arranging a matching task in which the relevant logical
arguments are presented in the form of visual stimuli. Using
letters of the alphabet for explanatory purposes, choosing test
pair BB would be correct if the sample pair were AA,
whereas choosing test pair EF would be correct if the sample
pair were CD. Stated logically, A:A as B:B (same = same)
and C:D as E:F (different = different). Critically, no items in
the correct test pair physically match any of the items in the
sample pair; so, only the analogical relation of sameness can
be used to solve the task.
Now, we have found that crows too can exhibit analogical
thinking. Ed Wasserman, one of the authors of this article,
and his colleagues in Moscow, Anna Smirnova, Zoya Zorina,
and Tanya Obozova, ?rst trained hooded crows on several
tasks in which they had to match items that were the same as
one another. The crows were presented with a tray containing
three cups. The middle cup was covered by a card picturing a
color, a shape, or a number of items. The other two side cups
were also covered by cards—one the same as and one
different from the middle card. The cup under the matching
card contained food, but the cup under the nonmatching card
was empty. Crows quickly learned to choose the matching
card and to do so more quickly from one task to the next.
Then, the critical test was given. Each card now pictured a
pair of items. The middle card would display pairs AA or
CD, and the two side cards would display pair BB and pair
EF. The relation between one pair of items must be
appreciated and then applied to a new pair of items to
generate the correct answer: the BB card in the case of AA or
the EF card in the case of CD. For instance, if the middle
card displayed a circle and a cross, then the correct choice
would be the side card containing a square and a triangle
rather than the side card containing two squares.
Not only could the crows correctly perform this task, but
they did so spontaneously, from the very ?rst presentations,
without ever being trained to do so.
It seems that initial training to match identical items
enabled the crows to grasp a broadly applicable concept of
sameness that could apply to the novel two-item analogy
task. Such robust and uninstructed behavior represents the
most convincing evidence yet of analogical reasoning in a
non-primate animal.
Percentage of Crows Correct Responses in 8 Sessions of Identical-
Matching Tasks
Adapted from Anna Smirnova et al., "Crows Spontaneously Exhibit
Analogical Reasoning." (C) 2015 by Elsevier Ltd.
1 The main purpose of the passage is to
A) present research approaches used to determine that
crows may be able to think analogically.
B) show that crows have been proven to be the smartest
of all non-primate animals.
C) argue that crows need proper training in order to perform complex and advanced tasks.
D) explain that scientists’ understanding of crows likely
will progress rapidly following a recent study.
2 As used in line 2, “strong” most nearly means
A) powerful.
B) compelling.
C) intense.
D) extreme.
3
In the fourth paragraph, the phrase “sameness and differentness” primarily serves to
A) introduce a concept that is central to the experiments
described later.
B) refer to the topic that led researchers to begin studying reasoning in animals.
C) reveal that expert scientists sometimes use everyday
language in their reports.
D) emphasize that certain terms must be used when
describing intelligent animals.
4 The discussion of animals’ ability to apply a learned skill
in various testing scenarios suggests that some animals
A) grasp concepts because they are similar to things they
experience in the wild.
B) are capable of understanding the shared concept that
underlies different tasks.
C) cannot differentiate between “sameness” and “difference” after being trained.
D) learn a new task most quickly when they have just
repeated a different task many times.
5 Which choice provides the best evidence for the answer to the previous question?
A) lines 26–28 (“Because . . . animals”)
B) lines 30–33 (“We reward . . . items”)
C) lines 33–36 (“Several species. . . items”)
D) lines 38–40 (“Here . . . stimuli”) 6 Based on the authors’ initial explanation of the analogical matching task, a sample pair with a triangle and a square would most correctly be
A) Two triangles.
B) A circle and a cross.
C) Two squares.
D) A square and a cross.
7
It can be reasonably inferred that a key difference between the two parts of the study done by Ed Wasserman and his colleagues is that the second part
A) required a more complex task.
B) involved direct observation, while the ?rst experiment was viewed on a monitor.
C) involved a new analogical relationship.
D) tested learned abilities, while the second experiment
tested natural abilities.
8 Which choice provides the best evidence for the answer to the previous question?
A) lines 54–58 (“The crows . . . card”)
B) lines 58–60 (“The cup . . . empty”)
C) lines 62–67 (“Each . . . answer”)
D) lines 72–74 (“Not . . . spontaneously”)
9 The averaged results for sessions 1-8 as shown in the chart reveal that
A) Crow 1 was generally more successful at matching size and Crow 2 was generally more successful at matching color.
B) Crow 1 was generally more successful at matching shape and Crow 2 was generally more successful at matching size.
C) Crow 1 was generally more successful at matching shape and Crow 2 was generally more successful at matching color.
D) Crow 1 was generally more successful at matching color and Crow 2 was generally more successful at matching size.
10 Which statement can be reasonably inferred from the information in the passage and the graph?
A) Crows’ ability to match objects steadily improves as new dimensions are introduced.
B) Researchers can see evidence of learning even when an animal’s performance on a task is inconsistent during
observation.
C) Crows perform differently on matching tasks when they
are aware that they are being observed.
D) Researchers may in?uence the outcome of scienti?c trials with animals by varying their teaching methods.
11 The information from the chart best supports the authors’ claim that the crows
A) easily understood the relationship between two unlike
objects.
B) recognized that a learned skill could be applied to a new task.
C) quickly learned to complete the matching task.
D) grasped the concept of cause-effect relationships.
Line 5 10 15 20 25 30 35 40 45 50
55
60
65
70
Question 1-11 are based on the following passage.
Adapted from "NASA's NuSTAR Helps Solve Riddle of Black
Hole Spin." ? 2013 by NASA.
Two X-ray space observatories, NASA's Nuclear
Spectroscopic Telescope Array (NuSTAR) and the European
Space Agency's XMM-Newton, have teamed up to measure,
for the ?rst time, the spin rate of a black hole with a mass
two million times that of our sun.
The supermassive black hole lies at the dust- and gas-
?lled heart of a galaxy called NGC 1365, and it is spinning
almost as fast as Einstein's theory of gravity will allow. The
?ndings, which appear in a new study in the journal Nature,
resolve a long-standing debate about similar measurements in
other black holes and will lead to a better understanding of
how black holes and galaxies evolve.
"This is hugely important to the ?eld of black hole
science," said Lou Kaluzienski, a NuSTAR program scientist
at NASA Headquarters in Washington.
The observations also are a powerful test of Einstein's
theory of general relativity, which says gravity can bend
space-time, the fabric that shapes our universe, and the light
that travels through it.
"We can trace matter as it swirls into a black hole using X-
rays emitted from regions very close to the black hole," said
the coauthor of a new study, NuSTAR principal investigator
Fiona Harrison of the California Institute of Technology in
Pasadena. "The radiation we see is warped and distorted by
the motions of particles and the black hole's incredibly strong
gravity."
NuSTAR, an Explorer-class mission launched in June
2012, is designed to detect the highest-energy X-ray light in
great detail. It complements telescopes that observe lower-
energy X-ray light, such as XMM-Newton and NASA's
Chandra X-ray Observatory. Scientists use these and other
telescopes to estimate the rates at which black holes spin.
Until now, these measurements were not certain because
clouds of gas could have been obscuring the black holes and
confusing the results. With help from XMM-Newton,
NuSTAR was able to see a broader range of X-ray energies
and penetrate deeper into the region around the black hole.
The new data demonstrate that X-rays are not being warped
by the clouds, but by the tremendous gravity of the black
hole. This proves that spin rates of supermassive black holes
can be determined conclusively.
Measuring the spin of a supermassive black hole is
fundamental to understanding its past history and that of its
host galaxy.
"These monsters, with masses from millions to billions of
times that of the sun, are formed as small seeds in the early
universe and grow by swallowing stars and gas in their host
galaxies, merging with other giant black holes when galaxies
collide, or both," said the study's lead author, Guido Risaliti
of the Harvard-Smithsonian Center for Astrophysics in
Cambridge, Mass., and the Italian National Institute for
Astrophysics.
Supermassive black holes are surrounded by pancake-like
accretion disks, formed as their gravity pulls matter inward.
Einstein's theory predicts that the faster a black hole spins,
the closer the accretion disk lies to the black hole. The closer
the accretion disk is, the more gravity from the black hole
will warp X-ray light streaming off the disk.
Astronomers look for these warping effects by analyzing
X-ray light emitted by iron circulating in the accretion disk.
In the new study, they used both XMM-Newton and
NuSTAR to simultaneously observe the black hole in NGC
1365. While XMM-Newton revealed that light from the iron
was being warped, NuSTAR proved that this distortion was
coming from the gravity of the black hole and not gas clouds
in the vicinity. NuSTAR's higher-energy X-ray data showed
that the iron was so close to the black hole that its gravity
must be causing the warping effects.
With the possibility of obscuring clouds ruled out,
scientists can now use the distortions in the iron signature to
measure the black hole's spin rate. The ?ndings apply to
several other black holes as well, removing the uncertainty in
the previously measured spin rates.
1
The main purpose of the passage is to
A) contradict a longstanding scienti?c hypothesis.
B) discuss the ?ndings and implications of a recent study.
C) show how modern technology can improve scienti?c
observations.
D) inform readers about the history of a phenomenon.
2
In designing their study, the scientists most probably thought
of Einstein's theory of gravity as
A) an outdated model which needed to be updated to
incorporate new technologies.
B) a scienti?c breakthrough that had yet to be tested and
proven correct.
C) a baseline hypothesis that they hoped to validate through
the study’s experiments.
D) a major scienti?c discovery that they wanted to update
and revise in their study.
3
As used in line 39, “tremendous” most nearly means
A) colossal.
B) amazing.
C) dreadful.
D) appalling
4 What effect does the word “monsters” (line 45) have on the tone of the passage?
A) It creates a heightened tone that reinforces the massive size of black holes.
B) It creates a frightening tone that suggests that black holes are something to fear.
C) It creates an alarming tone that implies that measuring
black holes is impossible.
D) It creates a menacing tone that hints at the destructive
power of black holes.
5 According to the passage, gas clouds are relevant to the
?eld of black hole science due to the
A) effect that they have had in preventing the accurate
collection of black hole data.
B) extent to which they are linked in a symbiotic
relationship with black holes.
C) ability they have to warp the view of the study’s
telescopes in space.
D) degree to which they are connected to Einstein’s theory regarding accretion disks.
6 Which best describes the roles played in the study by NuSTAR and XMM-Newton?
A) NuSTAR provided more precise information about a
?nding made by XMM-Newton.
B) XMM-Newton was able to see more deeply into space than NuSTAR.
C) XMM-Newton validated a ?nding ?rst made by NuSTAR.
D) NuSTAR’s X-ray data contradicted XMM-Newton’s
?ndings.
7 Which choice provides the best evidence for the answer to the previous question?
A) lines 1–5(“Two . . . sun”)
B) lines 27–29(“NuSTAR . . . detail”)
C) lines 61–63(“In . . . 1365”)
D) lines 63–66(“While . . . vicinity”) 8 The best restatement of the author's view of the study's
?ndings is that the author
A) believes the ?ndings eliminate previous ambiguities.
B) is concerned that there is not enough evidence to prove the scientists’ theory.
C) accepts that the study’s ?ndings require no further
research.
D) concludes that more questions than answers have been raised.
9 Which choice provides the best evidence for the answer to the previous question?
A) lines 38–40 (“The . . . hole”)
B) lines 42–44 (“Measuring . . . galaxy”)
C) lines 69–71 (“With . . . rate”)
D) lines 71–73 (“The . . . rates”)
10 The passage makes the most extensive use of which type of evidence?
A) Scienti?c observations
B) Expert testimony
C) Historical documentation
D) Statistical evidence
11 The author includes a quote from Guido Risaliti (lines 45–
49) most likely to
A) help readers understand black holes as unknowable and dangerous.
B) support the claim that supermassive black holes have a warping effect.
C) back up the argument that black holes and galaxies
remain a mystery.
D) add context to the discussion of the importance of spin rates.
Line 5 10 15 20 25 30 35 40 45 50
55
60
65
Question 1-11 are based on the following passage.
Passage adapted from Nikhil Swaminathan, "Eat (Less) to
Live (Longer)," ?2007 by Scienti?c American.
Scientists have known for more than 70 years that the one
sure?re way to extend the lives of animals was to cut calories
by an average of 30 to 40 percent. The question was: Why?
Now a new study begins to unravel the mystery and the
mechanism by which reducing food intake protects cells
against aging and age-related diseases.
Researchers report in the journal Cell that the
phenomenon is likely linked to two enzymes-SIRT3 and
SIRT4-in mitochondria (the cell's powerhouse that, among
other tasks, converts nutrients to energy). They found that a
cascade of reactions triggered by lower caloric intake raises
the levels of these enzymes, leading to an increase in the
strength and ef?ciency of the cellular batteries. By
invigorating the mitochondria, SIRT3 and SIRT4 extend the
life of cells, by preventing ?agging mitochondria from
developing tiny holes (or pores) in their membranes that
allow proteins that trigger apoptosis, or cell death, to seep out
into the rest of the cell.
"We didn't expect that the most important part of this
pathway was in the mitochondria," says David Sinclair, an
assistant professor of pathology at Harvard Medical School
and a study co-author. "We think that we've possibly found
regulators of aging."
In 2003 Sinclair's lab published a paper in Nature that
described the discovery of a gene that switched on in the
yeast cell in response to calorie restriction, which Sinclair
calls a "master regulator in aging." Since then, his team has
been searching for an analogous gene that plays a similar role
in the mammalian cell.
The researchers determined from cultures of human
embryonic kidney cells that lower caloric intake sends a
signal that activates a gene inside cells that codes for the
enzyme NAMPT (nicotinamide phosphoribosyltransferase).
The two- to four-fold surge in NAMPT in turn triggers the
production of a molecule called NAD (nicotinamide adenine
dinucleotide), which plays a key role in cellular metabolism
and signaling.
The uptick in NAD levels activates the SIRT3 and SIRT4
genes, increasing levels of their corresponding SIRT3 and
SIRT4 enzymes, which then ?ood the interior of the
mitochondria. Sinclair says he's not sure exactly how SIRT3
and SIRT4 beef up the mitochondria's energy output, but that
events leading to cell death are at the very least delayed when
there are vast quantities of the enzymes.
SIRT3 and SIRT4 are part of a family called sirtuins
(SIRT1, which helps extend cell life by modulating the
number of repair proteins ?xing DNA damage both inside
and outside the cell's nucleus, is also a member). SIRT is
short for sir-2 homologue-a well-studied protein that is
known to extend yeast cell longevity. According to Sinclair,
all of the mammalian SIRT genes (and their proteins) are
possible drug targets for therapies aimed at extending life, as
well as staving off age-related illnesses, such as Alzheimer's
disease, cancers and metabolic disorders, like diabetes.
"I think SIRT3 is the next most interesting sirtuin from a
drug development standpoint," Sinclair says. "It does protect
cells, but there's growing evidence that it may mediate the
bene?ts of exercise as well."
Sinclair's lab is now working on developing what he calls
a possible "supermouse" with elevated levels of NAMPT to
see if it lives longer and is more disease-resistant than normal
mice.
Matt Kaeberlein, a pathologist at the University of
Washington in Seattle, says that Sinclair's team has an
interesting hypothesis connecting the mitochondria to
longevity, but that it needs to be more directly tested in the
context of dietary restriction. "If the NAMPT-
overexpressing mice are long-lived and disease resistant, that
will provide more support for this idea."
Lifespan of Groups of Mice With Different Levels of Caloric
Reduction
Adapted from Weindruch R, et al. (1986). "The Retardation of Aging
in Mice by Dietary Restriction: Longevity, Cancer, Immunity, and
Lifetime Energy Intake." Journal of Nutrition, April, 116(4), 641-54.
1 The author indicates that caloric reduction extends the life of a mammalian cell by
A) turning off those genes involved in apoptosis, or cell
death.
B) forcing the mitochondria to utilize different energy
sources for fuel.
C) reducing the production of NAD (nicotinamide adenine dinucleotide).
D) initiating a series of steps that results in the increased
production of certain enzymes.
2 Based on the passage, SIRT-
3 and SIRT-
4 indirectly affect cell longevity by
A) strengthening the mitochondrial membrane.
B) ?xing damage to the cell’s DNA.
C) initiating cell death.
D) diminishing the ef?ciency of the cell’s mitochondria.
3 Which choice provides the best evidence for the answer to the previous question?
A) lines 7–9 (“Researchers . . . mitochondria”)
B) lines 13–18 (“By . . . cell.”)
C) lines 38–41 (“The . . . mitochondria.”)
D) lines 41–44 (“Sinclair . . . enzymes.”)
4 The author’s use of the words “powerhouse” and “batteries” in the second paragraph serves mainly to
A) emphasize that mitochondria are the most important
components of the cell.
B) suggest that mitochondria use an electrical gradient to
produce energy.
C) stress that mitochondria are the main sources of energy for the cell.
D) imply that mitochondria need to be recharged in order to function ef?ciently.
5 As used in line 15, “?agging” most nearly means
A) breaking.
B) shrinking.
C) folding.
D) weakening. 6 The main purpose of the ?fth paragraph (lines 30–37) is
to
A) suggest that caloric reduction has a different effect on yeast cells than mammalian cells.
B) highlight the important role that the kidney plays in the aging process.
C) clarify the intermediate steps between caloric reduction and improved mitochondrial ef?ciency.
D) identify the negative relationship between NAMPT
production and NAD production.
7 The author implies that the results of Sinclair’s study will enable future scientists to
A) reverse the aging process.
B) diagnose patients with age-related illnesses from an
earlier age.
C) create mice that are essentially immortal.
D) more effectively treat a number of age-related illnesses.
8 Which choice provides the best evidence for the answer to the previous question?
A) lines 45–50 (“SIRT . . . longevity.”)
B) lines 50–54 (“According . . . diabetes.”)
C) lines 59–62 (“Sinclair’s . . . mice.”)
D) lines 67–69 (“If . . . idea.”)
9 The main purpose of the graph is to
A) illustrate the relationship between caloric intake and
longevity in different groups of mice.
B) highlight how caloric reduction affects SIRT-3 enzyme production in different groups of mice.
C) suggest that caloric reduction affects mice differently than it affects yeast.
D) indicate that it is likely impossible to produce a
genetically enhanced “supermouse.”
10 How does the information in the graph relate to the author’s claim that caloric reduction increases the longevity of mammalian cells?
A) It supports the claim, but suggests that the differences in longevity are marginal after a 25% caloric reduction.
B) It supports the claim since the average lifespan of each
group of mice increases as caloric reduction increases. C) It does not support the claim since the group of mice that did not have any caloric reduction had the highest
survival rate after 35 months.
D) It does not support the claim since all four groups of mice had the same average lifespan.
11
It can reasonably be inferred from the graph that, 30 months into the study,
A) all of the mice in the “55% caloric reduction” group were still alive.
B) all of the mice in the “25% caloric reduction” group were still alive.
C) approximately 40% of the mice in the “no caloric
reduction” group were still alive.
D) none of the mice in the “no caloric reduction” group were still alive.
Line 5 10 15 20 25 30 35 40 45
55
50
60
Question 1-11 are based on the following passage.
This passage is excerpted from Yan Zhao, “Aspirin-Like
Compound Primes Plant Defense Against Pathogens,” ?
2014 by Yan Zhao.
Willow trees are well-known sources of salicylic acid, and
for thousands of years, humans have extracted the compound
from the tree’s bark to alleviate minor pain, fever, and
in?ammation.
Now, salicylic acid may also offer relief to crop plants by
priming their defenses against a microbial menace known as
“potato purple top phytoplasma.” Outbreaks of the cell-wall-
less bacterium in the fertile Columbia Basin region of the
Paci?c Northwest in 2002 and subsequent years in?icted
severe yield and quality losses on potato crops. The
Agricultural Research Service identi?ed an insect
accomplice-the beet leafhopper, which transmits the
phytoplasma to plants while feeding.
Carefully timed insecticide applications can deter such
feeding. But once infected, a plant cannot be cured. Now, a
promising lead has emerged. An ARS-University of
Maryland team has found evidence that pretreating tomato
plants, a relative of potato, with salicylic acid can prevent
phytoplasma infections or at least diminish their severity.
Treating crops with salicylic acid to help them fend off
bacteria, fungi, and viruses isn’t new, but there are no
published studies demonstrating its potential in preventing
diseases caused by phytoplasmas.
Wei Wu, a visiting scientist, investigated salicylic acid’s
effects, together with molecular biologist Yan Zhao and
others at ARS’s Molecular Plant Pathology Laboratory in
Beltsville, Maryland. “This work reached new frontiers by
demonstrating that plants could be bene?cially treated even
before they become infected and by quantifying gene activity
underlying salicylic acid’s preventive role,” according to
Robert E. Davis, the lab’s research leader.
For the study, published in the July 2012 Annals of
Applied Biology, the team applied two salicylic acid
treatments to potted tomato seedlings. The ?rst application
was via a spray solution 4 weeks after the seedlings were
planted. The second was via a root drench 2 days before
phytoplasma-infected scions were grafted onto the plants’
stems to induce disease. A control group of plants was not
treated.
In addition to visually inspecting the plants for disease
symptoms, the team analyzed leaf samples for the
phytoplasma’s unique DNA ?ngerprint, which turned up in
94 percent of samples from untreated plants but in only 47
percent of treated ones. Moreover, symptoms in the treated
group were far milder than in untreated plants. In fact,
analysis of mildly infected treated plants revealed
phytoplasma levels 300 times below those of untreated
plants, meaning that the salicylic acid treatment must have
suppressed pathogen multiplication. Signi?cantly, the
remaining 53 percent of treated plants were symptom- and
pathogen-free 40 days after exposure to the infected scions.
Researchers credit salicylic acid with triggering “systemic
acquired resistance,” a state of general readiness against
microbial or insect attack. Using quantitative polymerase
chain reaction procedures, the team also identi?ed three
regulatory defense genes whose activity was higher in treated
plants than in untreated ones.
Why salicylic acid had this effect isn’t known. Other
questions remain as well, including how treated plants will
fare under ?eld conditions. Nonetheless, such investigations
could set the stage for providing growers of potato, tomato,
and other susceptible crops some insurance against
phytoplasmas in outbreak-prone regions.
1
Over the course of the passage, the main focus shifts from
A) an overview of all research done to date on a scienti?c
topic to the future opportunities for studying this topic.
B) background information needed to understand an
experiment to a description of the experiment itself.
C) a summary of the experiments leading to a particular
scienti?c discovery to a philosophical discussion of the
discovery’s implications.
D) a description of a scienti?c inquiry to a description of the
pivotal moments in solving a mystery related to that
inquiry.
2
The author mentions willow trees in order to
A) argue that only natural compounds should be used to
treat infections that have their basis in nature.
B) show that natural objects known for their aesthetic
qualities can also be sources of medicine.
C) use a colorful and familiar metaphor to draw the reader
into a dense scienti?c passage.
D) introduce the topic by showing that salicylic acid has
been helpful to humans before.
3
The word “Now” (line 5) primarily serves to
A) highlight the recent nature of the scienti?c ?ndings.
B) interject a note of informality into a formal passage.
C) suggest that humans no longer perform the activity
mentioned in the ?rst paragraph.
D) create a sense of urgency in the passage.