ライフサイエンスコーパス: oceanography

1 ation data largely used thus far in chemical oceanography.

2 Triangle reflect the complex bathymetry and oceanography.

3 ty and long-term changes in Tropical Pacific oceanography.

4 remain fundamental questions in contemporary oceanography.

5 a collected on the biology, food supply, and oceanography.

6 ng in the contributions of tagged animals to oceanography.

7 al genetic structure patterns congruent with oceanography.

8 and meltwater contribution to the nearshore oceanography.

9 ributions is an ongoing effort in biological oceanography.

10 e basis of regional primary productivity and oceanography [1].

11 f planktonic larvae is passive, we find that oceanography alone is sufficient to explain the high lev

12 y factor explaining Hg variance but physical oceanography also contributes, with higher Hg concentrat

13 lteromonas sp. strain Scripps Institution of Oceanography (AltSIO)] to drawdown ambient DOC in a coas

14 t shows that the common practice in physical oceanography and satellite geodesy is not correct.

15 ace absolute geostrophic current in physical oceanography and satellite geodesy.

16 ighly cited studies in physical and chemical oceanography and three biological subdisciplines.

17 hese glaciers illustrate how combinations of oceanography and topography modulate rapid submarine mel

18 underscore the relationship between regional oceanography and weak larval dispersal in explaining pop

19 lications in three subdisciplines-hydrology, oceanography, and atmospheric science.

20 ecophysiology,(5)(,)(10) ecology,(2)(,)(11) oceanography, and biogeochemistry.(4)(,)(12)(,)(13) Howe

21 Understanding how geography, oceanography, and climate have ultimately shaped marine

22 isheries management, which combines ecology, oceanography, and economics, has matured significantly.

23 aboard a private yacht employing a 'citizen oceanography' approach and tools and protocols easily ad

24 c dead zones, which are at the confluence of oceanography, aquatic chemistry, and agronomy and which

25 ties remains a prevailing topic in microbial oceanography as information on environmentally relevant

26 ans contrast in size, age, isolation, depth, oceanography, biology and human factors, such as governa

27 cations in areas, such as medicine, biology, oceanography, bioprocess monitoring, corrosion studies,

28 an exciting time to explore this frontier of oceanography, but understanding microbial behavior and c

29 owever, the horizontal gravity is omitted in oceanography completely.

30 gical - but encompassing genomics, genetics, oceanography, ecological, earth observations sciences an

31 One of the major conundrums in oceanography for the past 20 y has been that, although t

32 6)O in CO(2) from the Scripps Institution of Oceanography global flask network and show that the inte

33 ionation, sediment processes, and basin-wide oceanography had divergent effects on each matrix.

34 fossils are widely used to study climate and oceanography in Earth's geological past.

35 yses demonstrate the central role of coastal oceanography in structuring benthic marine biogeography

36 Oceanography is inherently interdisciplinary and, since

37 ication of genomics to problems in microbial oceanography is significantly expanding our understandin

38 in turbulence with potential applications to oceanography, medical imaging, drug/gene delivery, chemi

39 that follow the basic precept of biological oceanography--namely, oligotrophic regions with low phyt

40 Bay, West Antarctic Peninsula (WAP) sea ice, oceanography, phytoplankton and encrusting zoobenthos ha

41 ial population at the Scripps Institution of Oceanography pier in La Jolla, CA, shows large increases

42 to determine how these intense storms alter oceanography, prey movements, and the behavior of top pr

43 dministration and the Scripps Institution of Oceanography, two organizations experienced in gas stand