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  3. Inequality Quantified: Mind the Gender Cap A) Female scientists have made steady gains in recent decades, but they face pers

Inequality Quantified: Mind the Gender Cap A) Female scientists have made steady gains in recent decades, but they face pers

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问题                                          Inequality Quantified: Mind the Gender Cap
    A) Female scientists have made steady gains in recent decades, but they face persistent career challenges. US universities and colleges employ far more male scientists than female ones and men earn significantly more in science occupations.
    B) As an aspiring engineer in the early 1970s, Lynne Kiorpes was easy to spot in her undergraduate classes. Among a sea of men, she and a handful of other women made easy targets for a particular professor at Northeastern University in Boston. Massachusetts. On the first day of class, "he looked around and said ’I see women in the classroom. I don’t believe women have any business in engineering, and I’m going to personally see to it that you all fail. ’" He wasn’t bluffing. All but one of the women in the class ultimately left engineering; Kiorpes went on to major in psychology. Such blatant (公然的) sexism is almost unthinkable today, says Kiorpes. now a neuroscientist at New York University. But Kiorpes. who runs several mentoring programmes for female students and postdoctoral fellows, says that subtle bias persists at most universities. And it drives some women out of science careers.
    C) By almost any metric, women have made great gains in closing the scientific gender gap, but female scientists around the world continue to face major challenges. According to the US National Science Foundation, women earn about half the doctorates in science and engineering in the United States but comprise only 21% of full science professors and 5% of full engineering professors. And on average, they earn just 82% of what male scientists make in the United States—even less in Europe. Scientific leaders say that they continue to struggle with ways to level the playing field and encourage more women to enter and stay in science.
    D) One of the most persistent problems is that a disproportionate (不成比例的) fraction of qualified women drop out of science careers in the very early stages. A 2006 survey of chemistry doctoral students by the Royal Society of Chemistry in London, for example, found that more than 70% of first-year female students said that they planned a career in research; by their third year, only 37% had that goal, compared with 59% of males.
    E) Many experts say that a big factor driving this trend is the lack of role models in the upper divisions of academia (学术界), which have been slow to change. The Royal Society of Chemistry has found, for instance, that female chemistry students are more likely than males to express low self-confidence and to report dissatisfaction with mentorship. Female students conclude consciously and unconsciously that these careers are not for them because they don’t see people like them. That effect—the sense of not belonging—is very, very powerful. The attrition continues at later stages. In biology, for example, women comprised 36% of assistant professors and only 27% of tenure candidates in a 2010 study by the US National Research Council. "We’re not talking about a lack of talent here. Part of the story is that women leave earlier."
    F) Many of the UK chemistry students viewed research as an all-consuming attempt that was incompatible with raising a family. Meeting the demanding schedule of academic research can seem dispiriting for both mothers and fathers. But family choices seem to weigh more heavily on the career goals of women.
    G) It is found that male and female postdocs without children are equally likely to decide against research careers, each leaving at a rate of about 20%. But female postdocs who become parents or plan to have children abandon research careers up to twice as often as men in similar circumstances. Furthermore, women who do become faculty members in astronomy, physics and biology tend to have fewer children than their male colleagues 1.2 versus 1.5, on average—and also have fewer children than they desire.
    H) In response to these concerns, many universities have taken steps to establish family-friendly policies such as providing child-care assistance and extending tenure clocks for new parents. Shirley Tilghman, president of Princeton University in New Jersey, believes that such initiatives provide crucial support for women, but that other solutions still needed. "I don’t think there’s a single obstacle," she says. "I think there’s a whole series of phenomena that add up. "
    I) At Yale University in New Haven, Connecticut, microbiologist Jo Handelsman is one of many researchers who think that gender discrimination continues to be a significant part of the problem. In a much-talkcd-about experiment last year, her team showed that science faculty members of both sexes exhibit unconscious biases against women. Handelsman’s group asked 127 professors of biology, chemistry and physics at 6 US universities to evaluate the CVs of two fictitious (虚构的) college students for a job as a laboratory manager. The professors said they would offer the student named Jennifer US$3,730 less per year than the one named John, even though the CVs were identical. The scientists also reported a greater willingness to mentor John than Jennifer.
    J) Her findings match well with the results of a survey done in 2010 by the American Association for the Advancement of Science. Of the 1,300 or so people who responded, 52% of women said that they had encountered gender bias during their careers, compared with just 2% of men.
    K) Still, other concrete evidence of bias is hard to find. Some measures show female scientists outperforming male rivals in landing interviews and job offers early in their careers. The National Research Council study showed that women accounted for 19% of the interview pool and received 32% of job offers for tenure-track electrical-engineering positions. Women fared just as well as men in tenure evaluations, but female assistant professors in many disciplines seemed less likely to reach tenure consideration compared with men.
    L) Several groups, such as the UK Medical Research Council and biomedical research charity the Wellcome Trust, have since investigated their grant programmes and found negligible or very subtle effects of gender. The Canadian Medical Research Council found no differences in success rate in most of its research grant programmes, but reported lower success rates for women in some training grants. In the United States, women are slightly more successful than men in obtaining grants from the National Science Foundation, but the trend is reversed for the National Institutes of Health (NIH). The NIH also gives women smaller awards on average.
    M) Information provided to Nature by the NIH through a Freedom of Information Act request indicates that the percentage of women on review panels has improved marginally over the past decade, from 25% in 2003 to 30% in 2012. Those figures roughly parallel the percentage of women applying for and receiving grants in that time.
    N) The inequalities also extend to salaries. In the European Union, female scientists earned on average between 25% and 40% less than male scientists in the public sector in 2006. Although the average pay gap is smaller in the United States, the disparity (不平等) is particularly large in physics and astronomy, where women earn 40% less than men. For young academic scientists, however, those differences may be fading. The National Research Council found an 8% pay gap at the level of full science and engineering professors but no significant differences among junior faculty members. Some experts argue, however, that the salary gap may reflect other continued trends, such as the fact that a disproportionate share of women move into non-tenure positions or faculty jobs at lower-status universities. O) Tilghman says that Princeton and many other universities have grown increasingly conscious of the need to track and rectify gender gaps in salary and other institutional support. "Absolutely, it needs eternal vigilance (警惕) ," she says. "But we’re in a much better place."
Even though they perform better than their male rivals, female scientists can hardly obtain equal career development opportunities.
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