READING PASSAGE 3

READING PASSAGE 3

READING PASSAGE 3

You should spend about 20 minutes on Questions 27-40, which are based on Reading Passage 3 below.

Amateur Naturalists

From the results of an annual Alaskan betting contest to sightings of migra­tory birds, ecologists are using a wealth of unusual data to predict the impact of climate change.

A Tim Sparks slides a small leather-bound notebook out of an envelope. The book's yellowing pages contain bee-keeping notes made between 1941 and 1969 by the late Walter Coates of Kilworth, Leicestershire. He adds it to his growing pile of local journals, birdwatchers' lists and gardening diaries. "We're uncovering about one major new record each month," he says, "I still get surprised." Around two centuries before Coates, Robert Marsham, a landowner from Norfolk in the east of England, began recording the life cycles of plants and animals on his estate - when the first wood anemones flowered, the dates on which the oaks burst into leaf and the rooks began nesting. Successive Marshams continued compiling these notes for 211 years.

B Today, such records are being put to uses that their authors could not pos­sibly have expected. These data sets, and others like them, are proving in­valuable to ecologists interested in the timing of biological events, or phen­ology. By combining the records with climate data, researchers can reveal how, for example, changes in temperature affect the arrival of spring, al­lowing ecologists to make improved predictions about the impact of climate change. A small band of researchers is combing through hundreds of years of records taken by thousands of amateur naturalists. And more systematic projects have also started up, producing an overwhelming response. "The amount of interest is almost frightening," says Sparks, a climate researcher at the Centre for Ecology and Hydrology in Monks Wood, Cambridgeshire.

C Sparks first became aware of the army of "closet phenologists”, as he de­scribes them, when a retiring colleague gave him the Marsham records. He now spends much of his time following leads from one historical data set to another. As news of his quest spreads, people tip him off to other historical records, and more amateur phenologists come out of their closets. The Brit­ish devotion to recording and collecting makes his job easier - one man from Kent sent him 30 years' worth of kitchen calendars, on which he had noted the date that his neighbour's magnolia tree flowered.

D Other researchers have unearthed data from equally odd sources. Rafe Sa­garin, an ecologist at Stanford University in California, recently studied records of a betting contest in which participants attempt to guess the exact time at which a specially erected wooden tripod will fall through the surface of a thawing river. The competition has taken place annually on the Tenana River in Alaska since 1917, and analysis of the results showed that the thaw now arrives five days earlier than it did when the contest began.

E Overall, such records have helped to show that, compared with 20 years ago, a raft of natural events now occur earlier across much of the northern hemi­sphere, from the opening of leaves to the return of birds from migration and the emergence of butterflies from hibernation. The data can also hint at how nature will change in the future. Together with models of climate change, amateurs' records could help guide conservation. Terry Root, an ecologist at the University of Michigan in Ann Arbor, has collected birdwatchers' counts of wildfowl taken between 1955 and 1996 on seasonal ponds in the Ameri­can Midwest and combined them with climate data and models of future warming. Her analysis shows that the increased droughts that the models predict could halve the breeding populations at the ponds. "The number of waterfowl in North America will most probably drop significantly with global warming," she says.

F But not all professionals are happy to use amateur data. "A lot of scientists won't touch them, they say they're too full of problems," says Root. Because different observers can have different ideas of what constitutes, for example, an open snowdrop. "The biggest concern with ad hoc observations is how carefully and systematically they were taken," says Mark Schwartz of the University of Wisconsin, Milwaukee, who studies the interactions between plants and climate. "We need to know pretty precisely what a person's been observing - if they just say 'I noted when the leaves came out', it might not be that useful." Measuring the onset of autumn can be particularly problem­atic because deciding when leaves change colour is a more subjective pro­cess than noting when they appear.

G Overall, most phenologists are positive about the contribution that ama­teurs can make. "They get at the raw power of science: careful observation of the natural world," says Sagarin. But the professionals also acknowledge the need for careful quality control. Root, for example, tries to gauge the quality of an amateur archive by interviewing its collector. "You always have to worry - things as trivial as vacations can affect measurement. I disregard a lot of records because they're not rigorous enough," she says. Others suggest that the right statistics can iron out some of the problems with amateur data. Together with colleagues at Wageningen University in the Netherlands, environmental scientist Arnold van Vliet is developing statistical techniques to account for the uncertainty in amateur phenological data. With the en­thusiasm of amateur phenologists evident from past records, professional researchers are now trying to create standardised recording schemes for fu­ture efforts. They hope that well-designed studies will generate a volume of observations large enough to drown out the idiosyncrasies of individual recorders. The data are cheap to collect, and can provide breadth in space, time and range of species. "It's very difficult to collect data on a large geo­graphical scale without enlisting an army of observers," says Root.

H Phenology also helps to drive home messages about climate change. "Be­cause the public understand these records, they accept them," says Sparks.

It can also illustrate potentially unpleasant consequences, he adds, such as the finding that more rat infestations are reported to local councils in warmer years. And getting people involved is great for public relations. "People are thrilled to think that the data they've been collecting as a hobby can be used for something scientific - it empowers them," says Root.

 

SECTION 3: QUESTIONS 27-40

Questions 27-33

Reading Passage 3 has eight paragraphs A-H.

Which paragraph contains the following information?

Write the correct letter A-H in boxes 27-33 on your answer sheet.

27     The definition of phenology

28    How Sparks first became aware of amateur records

29    How people reacted to their involvement in data collection

30     The necessity to encourage amateur data collection

31   A description of using amateur records to make predictions

32     Records of a competition providing clues to climate change

33    A description of a very old record compiled by generations of amateur naturalists

Questions 34-36

Complete the sentences below with NO MORE THAN TWO WORDS from the passage for each answer.

Write your answers in boxes 34-36 on your answer sheet.

Walter Coates’s records largely contain the information of 34 

Robert Marsham is famous for recording the  35   of animals and plants on his land.

According to some phenologists, global warming may cause the number of waterfowl in North America to drop significantly due to increased 36 

Questions 37-40

Choose the correct letter A, B, C or D.

Write your answers in boxes 37-40 on your answer sheet.

37

Why do a lot of scientists discredit the data collected by amateurs?

A Scientific methods were not used in data collection.

B Amateur observers are not careful in recording their data.

C Amateur data is not reliable.

D Amateur data is produced by wrong candidates.

38

Mark Schwartz used the example of leaves to illustrate that

A amateur records can’t be used.

B amateur records are always unsystematic.

C the colour change of leaves is hard to observe.

D valuable information is often precise.

39

How do the scientists suggest amateur data should be used?

A Using improved methods

B Being more careful in observation

C Using raw materials

D Applying statistical techniques in data collection

40

What’s the implication of phenology for ordinary people?

A It empowers the public.

B It promotes public relations.

C It warns people of animal infestation.

D It raises awareness about climate change in the public.

ĐÁP ÁN VÀ LỜI GIẢI CHI TIẾT

27B

28C

29H

30G

31E

32D

33A

34bee-keeping

35life cycles

36drought(s)

37C

38A

39D

40D

 

READING PASSAGE 3

You should spend about 20 minutes on Questions 27-40, which are based on Reading Passage 3 below.

Amateur Naturalists

From the results of an annual Alaskan betting contest to sightings of migra­tory birds, ecologists are using a wealth of unusual data to predict the impact of climate change.

A Tim Sparks slides a small leather-bound notebook out of an envelope. The book's yellowing pages contain Q34 bee-keeping notes made between 1941 and 1969 by the late Walter Coates of Kilworth, Leicestershire. He adds it to his growing pile of local journals, birdwatchers' lists and gardening diaries. "We're uncovering about one major new record each month," he says, "I still get surprised." Q33 Around two centuries before Coates, Robert Marsham, a landowner from Norfolk in the east of England, began recording the Q35 life cycles of plants and animals on his estate - when the first wood anemones flowered, the dates on which the oaks burst into leaf and the rooks began nesting. Successive Marshams continued compiling these notes for 211 years.

B Today, such records are being put to uses that their authors could not pos­sibly have expected. These data sets, and others like them, are proving in­valuable to ecologists interested in Q27 the timing of biological events, or phen­ology. By combining the records with climate data, researchers can reveal how, for example, changes in temperature affect the arrival of spring, al­lowing ecologists to make improved predictions about the impact of climate change. A small band of researchers is combing through hundreds of years of records taken by thousands of amateur naturalists. And more systematic projects have also started up, producing an overwhelming response. "The amount of interest is almost frightening," says Sparks, a climate researcher at the Centre for Ecology and Hydrology in Monks Wood, Cambridgeshire.

C Q28 Sparks first became aware of the army of "closet phenologists”, as he de­scribes them, when a retiring colleague gave him the Marsham records. He now spends much of his time following leads from one historical data set to another. As news of his quest spreads, people tip him off to other historical records, and more amateur phenologists come out of their closets. The Brit­ish devotion to recording and collecting makes his job easier - one man from Kent sent him 30 years' worth of kitchen calendars, on which he had noted the date that his neighbour's magnolia tree flowered.

D Other researchers have unearthed data from equally odd sources. Rafe Sa­garin, an ecologist at Stanford University in California, recently Q32 studied records of a betting contest in which participants attempt to guess the exact time at which a specially erected wooden tripod will fall through the surface of a thawing river. The competition has taken place annually on the Tenana River in Alaska since 1917, and analysis of the results showed that the thaw now arrives five days earlier than it did when the contest began.

E Overall, such records have helped to show that, compared with 20 years ago, a raft of natural events now occur earlier across much of the northern hemi­sphere, from the opening of leaves to the return of birds from migration and the emergence of butterflies from hibernation. Q31 The data can also hint at how nature will change in the future. Together with models of climate change, amateurs' records could help guide conservation. Terry Root, an ecologist at the University of Michigan in Ann Arbor, has collected birdwatchers' counts of wildfowl taken between 1955 and 1996 on seasonal ponds in the Ameri­can Midwest and combined them with climate data and models of future warming. Her analysis shows that the increased Q36 droughts that the models predict could halve the breeding populations at the ponds. "The number of waterfowl in North America will most probably drop significantly with global warming," she says.

F But not all professionals are happy to use amateur data. "Q37 A lot of scientists won't touch them, they say they're too full of problems," says Root. Because different observers can have different ideas of what constitutes, for example, an open snowdrop. "The biggest concern with ad hoc observations is how carefully and systematically they were taken," says Mark Schwartz of the University of Wisconsin, Milwaukee, who studies the interactions between plants and climate. "We need to know pretty precisely what a person's been observing - if they just say 'I noted when the leaves came out', it might not be that useful." Measuring the onset of autumn can be particularly problem­atic because Q38 deciding when leaves change colour is a more subjective pro­cess than noting when they appear.

G Overall, most phenologists are positive about Q30 the contribution that ama­teurs can make. "They get at the raw power of science: careful observation of the natural world," says Sagarin. But the professionals also acknowledge the need for careful quality control. Root, for example, tries to gauge the quality of an amateur archive by interviewing its collector. "You always have to worry - things as trivial as vacations can affect measurement. I disregard a lot of records because they're not rigorous enough," she says. Others suggest that the right statistics can iron out some of the problems with amateur data. Together with colleagues at Wageningen University in the Netherlands, environmental scientist Arnold van Vliet is Q39 developing statistical techniques to account for the uncertainty in amateur phenological data. With the en­thusiasm of amateur phenologists evident from past records, professional researchers are now trying to create standardised recording schemes for fu­ture efforts. They hope that well-designed studies will generate a volume of observations large enough to drown out the idiosyncrasies of individual recorders. The data are cheap to collect, and can provide breadth in space, time and range of species. "It's very difficult to collect data on a large geo­graphical scale without enlisting an army of observers," says Root.

H Phenology also helps to drive home messages about climate change. "Q40 Be­cause the public understand these records, they accept them," says Sparks.

It can also illustrate potentially unpleasant consequences, he adds, such as the finding that more rat infestations are reported to local councils in warmer years. And getting people involved is great for public relations. "Q29 People are thrilled to think that the data they've been collecting as a hobby can be used for something scientific - it empowers them," says Root.

 

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