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新航道托福频道小编为大家整理了托福阅读机经回忆及解析,供大家参考,以下是详细内容。
2012年5月26日托福考试尘埃落定,新航道“托福考试国家队”,时间为您回忆及解析本场考试托福阅读真题机经,帮助托友们知己知彼。
2012年5月26日托福考试完全重复(2011.12.3欧洲考题)
【具体内容】
Reading
Passage 1
【主旨】Ocean Thermal Stratification
【内容】Recent scientific studies have demonstrated that warmer atmospheric temperature increases thermal stratification of the water column, resulting in lower amounts of phytoplankton biomass at mid-latitudes. Changes in phytoplankton species abundance have also been demonstrated from long term time series studies in the United States and the United Kingdom, with a noticeable decline in the abundance of diatoms such as Skeletonema and Odontella species.
A decline in the amount of phytoplankton or a change in species composition is likely to have a knock-on effect on the marine food chain from zooplankton to commercial fisheries in addition to a reduction in the amount of carbon dioxide that is removed from the atmosphere. Increased stratification and a decrease in nutrient levels are likely to have an effect on the phytoplankton community structure such as changes in the geographic distribution of species associated with more turbulent water and possible increase in harmful algal blooms events
Passage 2
【主旨】Rainforest animal communication
【内容】The acoustic characteristics of an Amazonian lowland rain forest study site in southern Venezuela was analyzed to determine environmental constraints upon acoustic communication. Signal degradation was measured by conducting transmission experiments at different heights above ground level. Measurements of ambient noise served to determine possible communication distances for various times of day, heights above ground level and frequencies. “Sound windows” for acoustic long range communication were found for low frequencies, calling heights in the mid-story and calling in the morning or during the night. Sound attenuation was affected by height and frequency but not by time of day. Background noise varied remarkably with time of day and frequency and had a greater impact on communication distance than signal attenuation.
Physical aspects of anurans constrain sound production, and noisy habitats pose a challenge to signal recognition and detection. Habitat acoustics impose selection on anuran calls within the phylogenetic and morphological constraints of the vocal apparatus of senders and the auditory system of receivers. Visual displays and alerting calls can be used as alternative or additional signal strategies to overcome these problems. In this study, we investigated sound pressure levels and spectral features of calls of the ranid rock-skipper frog Staurois latopalmatus, exclusively found at waterfalls of Bornean streams. A total of 176 calls and waterfall recordings were analyzed to characterize acoustic signals and environmental noise. To obtain information on possible signal adaptations, dominant frequency and snout-vent length of 75 ranid species were collected from the literature and compared to our findings. Distributions along acoustically characterized rapids and waterfalls within a 1-km long river transect showed that S. latopalmatus exclusively occurs in noisy habitats. Two different call types could be distinguished in S. latopalmatus: a short, single-note call and a long, multi-note call. Both calls had a lower sound pressure than the noise produced by waterfalls. The dominant frequency analyses revealed that the signal-to-noise ratio can be maximized within high frequency bands around 5 kHz. Correlations of frequency versus body size in ranids indicated that S. latopalmatus has higher call frequencies than predicted by body size, suggesting acoustic adaptation to environmental noise. We conclude that acoustic signal efficiency in environments with low-frequency dominated noise can only be attained through high frequency calls. The single-note call is interpreted as an alerting signal directing the receiver's attention to a subsequent visual signal. The multi-note call is interpreted as a graded aggressive call. We suggest that microhabitat characteristics represent strong selective pressures on the form of acoustic signals. Short calls with a narrow frequency band could reflect a trade-off, sound propagation and discrimination between individuals
Passage 3
【主旨】Poikilotherms:
【内容】A poikilotherm is an organism whose internal temperature varies considerably. It is the opposite of a homeotherm, an organism which maintains thermal homeostasis. Usually the variation is a consequence of variation in the ambient environmental temperature. Many terrestrial ectotherms are poikilothermic. However some ectotherms remain in temperature-constant environments to the point that they are actually able to maintain a constant internal temperature. It is this distinction that often makes the term "poikilotherm" more useful than the vernacular "cold-blooded", which is sometimes used to refer to ectotherms more generally. Poikilothermic animals include types of vertebrate animals, specifically fish, amphibians, and reptiles, as well as a large number of invertebrate animals. The Naked mole rat is the only mammal that is currently thought to be poikilothermic.
For an important chemical reaction, poikilotherms may have four to ten enzyme systems that operate at different temperatures. As a result, poikilotherms often have larger, more complex genomes than homeotherms in the same ecological niche. Frogs are a notable example of this effect, though their complex development is likely more important.
Because their metabolism is variable and generally below that of homeothermic animals, sustained high-energy activities like powered flight in large animals or maintaining a large brain is generally beyond poikilotherm animals. The metabolism of poikilotherms favors strategies such as sit-and-wait hunting over chasing prey for larger animals with high movement cost. As they do not use their metabolisms to heat or cool themselves, total energy requirement over time is low. For the same body weight, poikilotherms need a half to a tenth of the energy of homeotherms.
It is comparatively easy for a poikilotherm to accumulate enough energy to reproduce. Poikilotherms at the same trophic level often have much shorter generations than homeotherms: weeks rather than years.[citation needed] Such applies even to animals with similar ecological roles such as cats and snakes.
This difference in energy requirement also means that a given food source can support a greater density of poikilothermic animals than homeothermic animals. This is reflected in the predator-prey ratio which is usually higher in poikilothermic fauna compared to homeothermic ones. However, when homeotherms and poikilotherms have similar niches, and compete, the homeotherm can often drive poikilothermic competitors to extinction, because homeotherms can gather food for a greater fraction of each day.
Poikilotherms succeed in some habitats, such as islands and hot deserts, or distinct bioregions (such as the small bioregions of the Amazon basin). These biomes often do not have enough food to support a viable breeding population of homeothermic animals. In these habitats, poikilotherms such as large lizards, crabs and frogs supplant homeotherms such as birds and mammals.
2012.05.26阅读词汇题:
exploited出了两次选的都是take advantage of
suspend---float
virtually----nearly
deflect ----direction
potential-----possible
replenish-----restore
dramatically---
ultimately---eventually,
adequately---sufficiently
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