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Modern Data (modern + data)

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Life Sciences40%

Selected Abstracts

Regional assessment of the impact of climatic change on the distribution of a tropical conifer in the lowlands of South America

DIVERSITY AND DISTRIBUTIONS, Issue 6 2007
Marie-Pierre Ledru
Abstract For decades, palynologists working in tropical South America are using the genus Podocarpus as a climate indicator although without referring to any modern data concerning its distribution and limiting factors. With the aim to characterize the modern and past distribution of the southern conifer Podocarpus in Brazil and to obtain new information on the distribution of the Atlantic rainforest during the Quaternary, we examined herbarium data to locate the populations of three Brazilian endemic Podocarpus species: P. sellowii, P. lambertii, and P. brasiliensis, and extracted DNA from fresh leaves from 26 populations. Our conclusions are drawn in the light of the combination of these three disciplines: botany, palynology, and genetics. We find that the modern distribution of endemic Podocarpus populations shows that they are widely dispersed in eastern Brazil, from north to south and reveals that the expansion of Podocarpus recorded in single Amazonian pollen records may have come from either western or eastern populations. Genetic analysis enabled us to delimit regional expansion: between 5° and 15° S grouping northern and central populations of P. sellowii expanded c. 16,000 years ago; between 15° and 23° S populations of either P. lambertii or sellowii expanded at different times since at least the last glaciation; and between 23° and 30° S, P. lambertii appeared during the recent expansion of the Araucaria forest. The combination of botany, pollen, and molecular analysis proved to be a rapid tool for inferring distribution borders for sparse populations and their regional evolution within tropical ecosystems. Today the refugia of rainforest communities we identified are crucial hotspots to allow the Atlantic forest to survive under unfavourable climatic conditions and, as such, offer the only possible opportunity for this type of forest to expand in the event of a future climate change. [source]

Etiology of thrombocytopenia in all patients treated with heparin products

EUROPEAN JOURNAL OF HAEMATOLOGY, Issue 2 2005
Damian A. Laber
Abstract:,Purpose:,To characterize the cause of thrombocytopenia in all patients treated with heparin products, to determine the incidence of heparin-induced thrombocytopenia (HIT) in unselected hospitalized patients, and to have modern data of the magnitude of this problem. Methods:,Retrospective hospital-based cohort study. During a random 2-month period, we reviewed the medical records of all patients treated with heparin agents, screened them for thrombocytopenia, and determined the cause of it. Results:,Out of 674 patients who received heparin products, 110 (16%) had thrombocytopenia. The most common causes included cancer chemotherapy, surgery, sepsis, and medications. Three patients met the clinical criteria for HIT. One had antibodies for heparin-platelet factor-4, and received a direct thrombin inhibitor. The other two individuals had a clinical syndrome that resembled immune HIT, but were not tested for HIT antibodies. One suffered a thrombotic episode that led to the death of her fetus. The other died of a possible thromboembolism. Conclusions:,This study provides evidence-based data for the differential diagnosis of thrombocytopenia after treatment with heparin products. Our findings suggest that increased awareness of the HIT syndrome might reduce morbidity and mortality. Patients exposed to heparin products, who develop thrombocytopenia, should not be overlooked. [source]

The Gulf Stream and Atlantic sea-surface temperatures in AD1790,1825

INTERNATIONAL JOURNAL OF CLIMATOLOGY, Issue 12 2010
G. van der Schrier
Abstract We present gridded sea-surface temperatures (SSTs) for the Atlantic basin (45°S,60°N) as averages over the period AD1790,1825, based on early-instrumental SST data. The original measurements were compiled by Major James Rennell and made by numerous British naval vessels on behalf of the British Admiralty. We describe the digitization of this dataset and the reconstruction of spatially coherent, averaged conditions for the boreal cold (November-March) and warm (May,September) season using a reduced space optimal interpolation (RSOI) technique, in which the data is projected on a limited number of empirical orthogonal functions. This approach is validated on modern data that are sampled in a similar way as the early-instrumental data. The reconstruction for the November,March period shows a large area with anomalously high temperatures from the point where the Gulf Stream separates from the coast until ca. 20°W. A tongue of anomalous cool water is found at the eastern side of the North Atlantic basin, along the coast of Europe and northern Africa. In the northeastern South Atlantic, anomalously high temperatures are found, while temperatures in the southwestern South Atlantic are anomalously cool. For the March,September season, anomalous temperatures in the South Atlantic are similar, but stronger, compared with those in the boreal cold season. Over the North Atlantic, there is not much similarity between the current SST reconstructions and those published in the late 1950s. Copyright © 2009 Royal Meteorological Society [source]

Spatial congruence of ecological transition at the regional scale in South Africa

JOURNAL OF BIOGEOGRAPHY, Issue 5 2004
Berndt J. Van Rensburg
Abstract Aim, To determine whether patterns of avian species turnover reflect either biome or climate transitions at a regional scale, and whether anthropogenic landscape transformation affects those patterns. Location South Africa and Lesotho. Methods, Biome and land transformation data were used to identify sets of transition areas, and avian species occurrence data were used to measure species turnover rates (, -diversity). Spatial congruence between areas of biome transition, areas of high vegetation heterogeneity, high climatic heterogeneity, and high , -diversity was assessed using random draw techniques. Spatial overlap in anthropogenically transformed areas, areas of high climatic heterogeneity and high , -diversity areas was also assessed. Results, Biome transition areas had greater vegetation heterogeneity, climatic heterogeneity, and , -diversity than expected by chance. For the land transformation transition areas, this was only true for land transformation heterogeneity values and for one of the , -diversity measures. Avian presence/absence data clearly separated the biome types but not the land transformation types. Main conclusions, Biome edges have elevated climatic and vegetation heterogeneity. More importantly, elevated , -diversity in the avifauna is clearly reflected in the heterogeneous biome transition areas. Thus, there is spatial congruence in biome transition areas (identified on vegetation and climatic grounds) and avian turnover patterns. However, there is no congruence between avian turnover and land transformation transition areas. This suggests that biogeographical patterns can be recovered using modern data despite landscape transformation. [source]

Detecting past population bottlenecks using temporal genetic data

MOLECULAR ECOLOGY, Issue 10 2005
UMA RAMAKRISHNAN
Abstract Population bottlenecks wield a powerful influence on the evolution of species and populations by reducing the repertoire of responses available for stochastic environmental events. Although modern contractions of wild populations due to human-related impacts have been documented globally, discerning historic bottlenecks for all but the most recent and severe events remains a serious challenge. Genetic samples dating to different points in time may provide a solution in some cases. We conducted serial coalescent simulations to assess the extent to which temporal genetic data are informative regarding population bottlenecks. These simulations demonstrated that the power to reject a constant population size hypothesis using both ancient and modern genetic data is almost always higher than that based solely on modern data. The difference in power between the modern and temporal DNA approaches depends significantly on effective population size and bottleneck intensity and less significantly on sample size. The temporal approach provides more power in cases of genetic recovery (via migration) from a bottleneck than in cases of demographic recovery (via population growth). Choice of genetic region is critical, as mutation rate heavily influences the extent to which temporal sampling yields novel information regarding the demographic history of populations. [source]