Institution
Cooperative Research Centre
About: Cooperative Research Centre is a based out in . It is known for research contribution in the topics: Population & Sea ice. The organization has 7633 authors who have published 8607 publications receiving 429721 citations.
Topics: Population, Sea ice, Autism, Antarctic sea ice, Climate change
Papers published on a yearly basis
Papers
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University of Newcastle1, Cooperative Research Centre2, Foshan University3, University of New South Wales4, Tsinghua University5, University of Wollongong6, Nanjing Agricultural University7, Sejong University8, Hanyang University9, Kansas State University10, National University of Singapore11, Hong Kong Polytechnic University12, Korea University13, Sabaragamuwa University14, University of Wuppertal15, King Abdulaziz University16, Kafrelsheikh University17, Lancaster University18, University of Auckland19, University of Sri Jayewardenepura20, Egyptian Petroleum Research Institute21
TL;DR: Biochar is produced as a charred material with high surface area and abundant functional groups by pyrolysis, which refers to the process of thermochemical decomposition of organic material at elev...
Abstract: Biochar is produced as a charred material with high surface area and abundant functional groups by pyrolysis, which refers to the process of thermochemical decomposition of organic material at elev...
204 citations
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TL;DR: In this article, the authors examined the annual foraging ranges (sometimes exceeding 3.5 million km2) of female southern elephant seals, Mirounga leonina, over 4 years and found that individuals used preferred regions year after year.
203 citations
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TL;DR: It is argued that hybridization has important community‐level consequences and that the genetic variation present in hybrid zones can be used to explore the genetic‐based mechanisms that structure communities.
Abstract: To examine how genetic variation in a plant population affects arthropod community richness and composition, we quantified the arthropod communities on a synthetic population of Eucalyptus amygdalina, E. risdonii, and their F1 and advanced-generation hybrids. Five major patterns emerged. First, the pure species and hybrid populations supported significantly different communities. Second, species richness was significantly greatest on hybrids (F1 > F2 > E. amygdalina > E. risdonii). These results are similar to those from a wild population of the same species and represent the first case in which both synthetic and wild population studies confirm a genetic component to community structure. Hybrids also acted as centers of biodiversity by accumulating both the common and specialist taxa of both parental species (100% in the wild and 80% in the synthetic population). Third, species richness was significantly greater on F1s than the single F2 family, suggesting that the increased insect abundance on hybrids may not be caused by the breakup of coadapted gene complexes. Fourth, specialist arthropod taxa were most likely to show a dominance response to F1 hybrids, whereas generalist taxa exhibited a susceptible response. Fifth, in an analysis of 31 leaf terpenoids that are thought to play a role in plant defense, hybrids were generally intermediate to the parental chemotypes. Within the single F2 family, we found significant associations between the communities of individual trees and five individual oil components, including oil yield, demonstrating that there is a genetic effect on plant defensive chemistry that, in turn, may affect community structure. These studies argue that hybridization has important community-level consequences and that the genetic variation present in hybrid zones can be used to explore the genetic-based mechanisms that structure communities.
203 citations
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TL;DR: In this paper, the authors summarize the research to date on observing these trends, identifying their drivers, and assessing the role of anthropogenic climate change in Antarctic sea ice cover, concluding that the expected response is small compared to the very high natural variability of the system.
203 citations
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TL;DR: This is the first report of a psychrophilic methanogen growing by CO2 reduction, isolated from the perennially cold, anoxic hypolimnion of Ace Lake in the Vesfold Hills of Antarctica.
Abstract: Methanogenium frigidum sp. nov. was isolated from the perennially cold, anoxic hypolimnion of Ace Lake in the Vesfold Hills of Antarctica. The cells were psychrophilic, exhibiting most rapid growth at 15°C and no growth at temperatures above 18 to 20°C. The cells were irregular, nonmotile coccoids (diameter, 1.2 to 2.5 μm) that occurred singly and grew by CO2 reduction by using H2 as a reductant Formate could replace H2, but growth was slower. Acetate, methanol, and trimethylamine were not catabolized. Cells grew with acetate as the only organic compound in the culture medium, but growth was much faster in medium also supplemented with peptones and yeast extract. The cells were slightly halophilic; good growth occurred in medium supplemented with 350 to 600 mM Na+, but no growth occurred with 100 or 850 mM Na+. The pH range for growth was 6.5 to 7.9; no growth occurred at pH 6.0 or 8.5. Growth was slow (maximum specific growth rate, 0.24 day−1; doubling time, 2.9 days). This is the first report of a psychrophilic methanogen growing by CO2 reduction.
203 citations
Authors
Showing all 7633 results
Name | H-index | Papers | Citations |
---|---|---|---|
Eric N. Olson | 206 | 814 | 144586 |
Nicholas G. Martin | 192 | 1770 | 161952 |
Grant W. Montgomery | 157 | 926 | 108118 |
Paul Mitchell | 146 | 1378 | 95659 |
James Whelan | 128 | 786 | 89180 |
Shaobin Wang | 126 | 872 | 52463 |
Graham D. Farquhar | 124 | 368 | 75181 |
Jie Jin Wang | 120 | 719 | 54587 |
Christos Pantelis | 120 | 723 | 56374 |
John J. McGrath | 120 | 791 | 124804 |
David B. Lindenmayer | 119 | 954 | 59129 |
Ashley I. Bush | 116 | 560 | 57009 |
Yong-Guan Zhu | 115 | 684 | 46973 |
Ary A. Hoffmann | 113 | 907 | 55354 |
David A. Hume | 113 | 573 | 59932 |