THE AMERICAN SPECIES OF PERINEURA

The paper presents the results of the study on Platismatia species in Russia. The genus Platismatia counts 11 species, distributed mainly in the Pacific region, with some endemics of western North America and northeastern Asia. Six species were known from Russia by the beginning of our studies, but a revision of the herbarium collections showed that three species (P. erosa, P. herrei, and P. lacunosa) were reported erroneously. Based on morphological and chemotaxonomical (HPTLC) examination of the herbarium collections and our own material, as well as the study of relevant literature, four species of Platismatia are here accepted for Russia: P. glauca, P. interrupta, P. lacunosa, and P. norvegica. Platismatia lacunosa is reported here as a new for Russia from the Commander Islands. The distribution of P. glauca and P. interrupta is clarified. A key to all species of the genus reported from Russia and brief descriptions of the Russian species are presented.

Download Full-text

Decadal Prediction in the Pacific Region

Journal of Climate ◽

10.1175/2010jcli3296.1 ◽

2010 ◽

Vol 23 (11) ◽

pp. 2959-2973 ◽

Cited By ~ 54

Author(s):

Gerald A. Meehl ◽

Aixue Hu ◽

Claudia Tebaldi

Keyword(s):

Twentieth Century ◽

North America ◽

First Century ◽

Pacific Region ◽

Decadal Prediction ◽

Model Reference ◽

The Pacific ◽

Perfect Model ◽

Reference Simulation ◽

Twenty First Century

Abstract A “perfect model” configuration with a global coupled climate model 30-member ensemble is used to address decadal prediction of Pacific SSTs. All model data are low-pass filtered to focus on the low-frequency decadal component. The first three EOFs in the twentieth-century simulation, representing nearly 80% of the total variance, are used as the basis for early twenty-first-century predictions. The first two EOFs represent the forced trend and the interdecadal Pacific oscillation (IPO), respectively, as noted in previous studies, and the third has elements of both trend and IPO patterns. The perfect model reference simulation, the target for the prediction, is taken as the experiment that ran continuously from the twentieth to twenty-first century using anthropogenic and natural forcings for the twentieth century and the A1B scenario for the twenty-first century. The other 29 members use a perturbation in the atmosphere at year 2000 and are run until 2061. Since the IPO has been recognized as a dominant contributor to decadal variability in the Pacific, information late in the twentieth century and early in the twenty-first century is used to select a subset of ensemble members that are more skillful in tracking the time evolution of the IPO (EOF2) in relation to a notional start date of 2010. Predictions for the 19-yr period centered on the year 2020 use that subset of ensemble members to construct Pacific SST patterns based on the predicted evolution of the first three EOFs. Compared to the perfect model reference simulation, the predictions show some skill for Pacific SST predictions with anomaly pattern correlations greater than +0.5. An application of the Pacific SST prediction is made to precipitation over North America and Australia. Even though there are additional far-field influences on Pacific SSTs and North American and Australian precipitation involving the Atlantic multidecadal oscillation (AMO) in the Atlantic, and Indian Ocean and South Asian monsoon variability, there is qualitative skill for the pattern of predicted precipitation over North America and Australia using predicted Pacific SSTs. This exercise shows that, in the presence of a large forced trend like that in the large ensemble, much of Pacific region decadal predictability about 20 years into the future arises from increasing greenhouse gases.

Download Full-text

Ramellogammarus vancouverensis Bousfield (Amphipoda) as an intermediate host for salmonid parasites in British Columbia

Canadian Journal of Zoology ◽

10.1139/z82-152 ◽

1982 ◽

Vol 60 (5) ◽

pp. 1100-1104 ◽

Cited By ~ 2

Author(s):

L. Margolis ◽

F. Moravec

Keyword(s):

British Columbia ◽

North America ◽

Intermediate Host ◽

First Record ◽

Vancouver Island ◽

Pacific Region ◽

Salmonid Fishes ◽

Swim Bladder ◽

The Pacific ◽

First Time

Larvae of the nematode Salvelinema walkeri (Ekbaum, 1935) and metacercariae of the trematode Crepidostomum metoecus (Braun, 1900) are recorded for the first time from the amphipod Ramellogammarus vancouverensis Bousfield, 1979 (Amphipoda: Gammaridae).The infected amphipods were collected from De Mamiel Creek, southwestern Vancouver Island, British Columbia. Brief descriptions are given of both parasites, which as adults live in salmonid fishes. This report provides the first record of an intermediate host for S. walkeri, a swim-bladder parasite of salmonids of the Pacific region of North America, and of an intermediate host of a Crepidostomum species in the Pacific region of Canada.

Download Full-text

The Greenwood Encyclopedia of American Regional Cultures2006117Edited by Michael Sletcher. The Greenwood Encyclopedia of American Regional Cultures. Westport, CT and London: Greenwood Press 2004. , ISBN: 0 313 33266 5 £395, $699.95 8 vols Set comprises: New England; The Mid‐Atlantic Region; The South; The Southwest; The Pacific Region; Rocky Mountain Region; The Great Plains Region; The Midwest

Reference Reviews ◽

10.1108/09504120610647726 ◽

2006 ◽

Vol 20 (2) ◽

pp. 62-63

Author(s):

David Harrison

Keyword(s):

New England ◽

Great Plains ◽

Rocky Mountain ◽

Mountain Region ◽

Pacific Region ◽

The South ◽

Atlantic Region ◽

Rocky Mountain Region ◽

The Pacific ◽

Regional Cultures

Download Full-text

Variations in Earth's 1D viscosity structure in different tectonic regimes

10.31223/x5wg9q ◽

2022 ◽

Author(s):

Anthony Osei Tutu ◽

Christopher Harig

Keyword(s):

Transition Zone ◽

Pacific Region ◽

Atlantic Region ◽

Long Wavelength ◽

Compositional Evolution ◽

Mantle Viscosity ◽

The Pacific ◽

Spectral Localization ◽

Subducted Oceanic Crust ◽

Strong Transition

Earth’s long-wavelength geoid provides insights into the thermal, structural, and compositional evolution of the mantle. Historically, most estimates of mantle viscosity using the long-wavelength geoid have considered radial variations with depth in a symmetric Earth. Global estimates of this kind suggest an increase in viscosity from the upper mantle to lower mantle of roughly 2 -- 3 orders of magnitude. Using a spatio-spectral localization technique with the geoid, here we estimate a series of locally constrained viscosity-depth profiles covering two unique regions, the Pacific and Atlantic hemispheres, which show distinct rheological properties. The Pacific region exhibits the conventional Earth's 1D rheology with a factor of roughly 80-100 increase in viscosity occurring at transition zone depths (400 - 800 km). The Atlantic region in contrast does not show significant viscosity jumps with depth, and instead has a near uniform viscosity in the top 1000~km. The inferred viscosity variations between our two regions could be due to the prevalence of present-day subduction in the Pacific and the infrequence of slabs in the Atlantic, combined with a possible hydrated transition zone and mid-mantle of the Atlantic region by ancient subduction during recent supercontinent cycles. Rigid slab material within the top 800 km, with about 90\% Majoritic garnet in the form of subducted oceanic crust, coupled with unique regional mantle structures, may be generating a strong transition zone viscosity interface for the Pacific region. These effective lateral variations in mantle viscosity could play a role in the observed deformation differences between the Pacific and Atlantic hemispheres.

Download Full-text