Institution
James Cook University
Education•Townsville, Queensland, Australia•
About: James Cook University is a education organization based out in Townsville, Queensland, Australia. It is known for research contribution in the topics: Population & Coral reef. The organization has 9101 authors who have published 27750 publications receiving 1032608 citations. The organization is also known as: JCU.
Topics: Population, Coral reef, Reef, Coral, Coral reef fish
Papers published on a yearly basis
Papers
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University of Sydney1, University of Western Australia2, Commonwealth Scientific and Industrial Research Organisation3, James Cook University4, Rothamsted Research5, Argonne National Laboratory6, Ohio State University7, Cornell University8, Colorado State University9, Landcare Research10, University of Natural Resources and Life Sciences, Vienna11
TL;DR: In this article, a review highlights knowledge of the amount of carbon stored in soils globally, and the potential for carbon sequestration in soil, and discusses successful methods and models used to determine and estimate carbon pools and fluxes.
1,128 citations
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TL;DR: There are well-documented declines in some wild and managed pollinators in several regions of the world, however, many effective policy and management responses can be implemented to safeguard pollinators and sustain pollination services.
Abstract: Wild and managed pollinators provide a wide range of benefits to society in terms of contributions to food security, farmer and beekeeper livelihoods, social and cultural values, as well as the maintenance of wider biodiversity and ecosystem stability. Pollinators face numerous threats, including changes in land-use and management intensity, climate change, pesticides and genetically modified crops, pollinator management and pathogens, and invasive alien species. There are well-documented declines in some wild and managed pollinators in several regions of the world. However, many effective policy and management responses can be implemented to safeguard pollinators and sustain pollination services.
1,121 citations
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TL;DR: World population is likely to continue growing for the rest of the century, with at least a 3.5-fold increase in the population of Africa and the ratio of working-age people to older people is almost certain to decline substantially in all countries, not just currently developed ones.
Abstract: The United Nations (UN) recently released population projections based on data until 2012 and a Bayesian probabilistic methodology. Analysis of these data reveals that, contrary to previous literature, the world population is unlikely to stop growing this century. There is an 80% probability that world population, now 7.2 billion people, will increase to between 9.6 billion and 12.3 billion in 2100. This uncertainty is much smaller than the range from the traditional UN high and low variants. Much of the increase is expected to happen in Africa, in part due to higher fertility rates and a recent slowdown in the pace of fertility decline. Also, the ratio of working-age people to older people is likely to decline substantially in all countries, even those that currently have young populations.
1,091 citations
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TL;DR: The plutonic archive is unlocked through hafnium (Hf) and oxygen (O) isotope analysis of zoned zircon crystals from the classic hornblende-bearing (I-type) granites of eastern Australia.
Abstract: Granitic plutonism is the principal agent of crustal differentiation, but linking granite emplacement to crust formation requires knowledge of the magmatic evolution, which is notoriously difficult to reconstruct from bulk rock compositions. We unlocked the plutonic archive through hafnium (Hf) and oxygen (O) isotope analysis of zoned zircon crystals from the classic hornblende-bearing (I-type) granites of eastern Australia. This granite type forms by the reworking of sedimentary materials by mantle-like magmas instead of by remelting ancient metamorphosed igneous rocks as widely believed. I-type magmatism thus drives the coupled growth and differentiation of continental crust.
1,086 citations
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TL;DR: It is concluded that ectotherms sharing vulnerability traits seem concentrated in lowland tropical forests and their vulnerability may be exacerbated by negative biotic interactions, as genetic and selective data are scant.
Abstract: A recently developed integrative framework proposes that the vulnerability of a species to environmental change depends on the species' exposure and sensitivity to environmental change, its resilience to perturbations and its potential to adapt to change. These vulnerability criteria require behavioural, physiological and genetic data. With this information in hand, biologists can predict organisms most at risk from environmental change. Biologists and managers can then target organisms and habitats most at risk. Unfortunately, the required data (e.g. optimal physiological temperatures) are rarely available. Here, we evaluate the reliability of potential proxies (e.g. critical temperatures) that are often available for some groups. Several proxies for ectotherms are promising, but analogous ones for endotherms are lacking. We also develop a simple graphical model of how behavioural thermoregulation, acclimation and adaptation may interact to influence vulnerability over time. After considering this model together with the proxies available for physiological sensitivity to climate change, we conclude that ectotherms sharing vulnerability traits seem concentrated in lowland tropical forests. Their vulnerability may be exacerbated by negative biotic interactions. Whether tropical forest (or other) species can adapt to warming environments is unclear, as genetic and selective data are scant. Nevertheless, the prospects for tropical forest ectotherms appear grim.
1,077 citations
Authors
Showing all 9184 results
Name | H-index | Papers | Citations |
---|---|---|---|
Christopher J L Murray | 209 | 754 | 310329 |
Hui-Ming Cheng | 147 | 880 | 111921 |
Joseph T. Hupp | 141 | 731 | 82647 |
Graeme J. Hankey | 137 | 844 | 143373 |
Bryan R. Cullen | 121 | 371 | 50901 |
Thomas J. Meyer | 120 | 1078 | 68519 |
William F. Laurance | 118 | 470 | 56464 |
Staffan Kjelleberg | 114 | 425 | 44414 |
Mike Clarke | 113 | 1037 | 164328 |
Gao Qing Lu | 108 | 546 | 53914 |
David J. Williams | 107 | 2060 | 62440 |
Tim J Peters | 106 | 1037 | 47394 |
Michael E. Goddard | 106 | 424 | 67681 |
Ove Hoegh-Guldberg | 106 | 425 | 63750 |
John C. Avise | 105 | 413 | 53088 |