526 research outputs found
Spotlighting Truth and Beauty: Willa Cather\u27s Tenebraic Word Pictures
This thesis explores the way Willa Cather’s writing parallels visual art’s tenebrism – a dramatic way of illuminating a single person, object or idea by juxtaposing light against dark. Throughout her career, Cather uses this technique to convey truths relating to self realization, aestheticism, spirituality, and social awakening
Plankton species assemblages off southern Vancouver Island: Geographic pattern and temporal variability
Multivariate classification and ordination methods are used to describe the patterns of zooplankton and phytoplankton community composition during four summer-period surveys of the continental shelf region off southern British Columbia…
A 10-year time series of zooplankton anomalies off the British Columbia coast [abstract]
EXTRACT (SEE PDF FOR FULL ABSTRACT):
Zooplankton biomass and species composition have been sampled since 1985 at a set of standard locations off Vancouver Island. From these data, I have estimated multi-year average seasonal cycles and time series of anomalies from these averages
Estuary-enhanced upwelling of marine nutrients fuels coastal productivity in the U.S. Pacific Northwest
© 2014. American Geophysical Union. The Pacific Northwest (PNW) shelf is the most biologically productive region in the California Current System. A coupled physical-biogeochemical model is used to investigate the influence of freshwater inputs on the productivity of PNW shelf waters using realistic hindcasts and model experiments that omit outflow from the Columbia River and Strait of Juan de Fuca (outlet for the Salish Sea estuary). Outflow from the Strait represents a critical source of nitrogen to the PNW shelf-accounting for almost half of the primary productivity on the Vancouver Island shelf, a third of productivity on the Washington shelf, and a fifth of productivity on the Oregon shelf during the upwelling season. The Columbia River has regional effects on the redistribution of phytoplankton, but does not affect PNW productivity as strongly as does the Salish Sea. A regional nutrient budget shows that nitrogen exiting the Strait is almost entirely (98%) of ocean-origin-upwelled into the Strait at depth, mixed into surface waters by tidal mixing, and returned to the coastal ocean. From the standpoint of nitrogen availability in the coastal euphotic zone, the estuarine circulation driven by freshwater inputs to the Salish Sea is more important than the supply of terrigenous nitrogen by rivers. Nitrogen-rich surface waters exiting the Strait follow two primary pathways-to the northwest in the Vancouver Island Coastal Current and southward toward the Washington and Oregon shelves. Nitrogen flux from the Juan de Fuca Strait and Eddy Region to these shelves is comparable to flux from local wind-driven upwelling
Developing and optimizing a coordinated Salish Sea zooplankton monitoring program
Zooplankton occupy a key intermediate position in pelagic food webs. We know from a variety of studies that zooplankton communities are strongly variable at seasonal and longer time scales, and that changes in the zooplankton affect other components of the ecosystem. Ecologically-important modes of zooplankton variability include changes in total productivity and biomass, changes in community composition and food value, changes in seasonality, and perhaps also changes in the location and intensity of dense aggregations. Salish Sea zooplankton time series data are needed to know how the local zooplankton are changing over time, and to understand how these changes affect harvested fish populations, and more broadly how climate shifts will affect the entire marine ecosystem. Unfortunately, although there is a long history of zooplankton research in the Strait of Georgia and Puget Sound, the overwhelming majority of the sampling programs have been short term efforts, done with differing objectives, sampling designs and methods, and separated by many unsampled time intervals. Numerous research groups have independently identified the data gap and are advocating for development of an ongoing coordinated monitoring program. Through the collaborative U.S.-Canada Salish Sea Marine Survival project, we are developing a full Salish Sea zooplankton sampling program aimed at providing data that will answer questions about patterns in zooplankton as prey sources and as indicators of environmental change. The dominant Salish Sea zooplankton include taxa (and developmental stages within taxa) that differ greatly in body size, depth range, migration behavior and ability to avoid capture by nets. For this reason, no single sampling method can be optimal for all components of the zooplankton community. We will discuss the program we are planning including the scientific questions that will shape the sampling plan, the choice of locations, equipment, partners, and protocols, and the costs and benefits of different choices of sampling methods. Our goal is to provide a monitoring program that is responsive to the community’s needs, is flexible and expandable, is sustainable into the future while permitting robust comparisons with historical data, and is streamlined and efficient to make the most of available funding. We welcome input and discussion
Marine plankton phenology and life history in a changing climate : current research and future directions
© The Authors, 2010. This article is distributed under the terms of the Creative Commons Attribution-Noncommercial License. The definitive version was published in Journal of Plankton Research 32 (2010): 1355-1368, doi:10.1093/plankt/fbq062.Increasing availability and extent of biological ocean time series (from both in situ and satellite data) have helped reveal significant phenological variability of marine plankton. The extent to which the range of this variability is modified as a result of climate change is of obvious importance. Here we summarize recent research results on phenology of both phytoplankton and zooplankton. We suggest directions to better quantify and monitor future plankton phenology shifts, including (i) examining the main mode of expected future changes (ecological shifts in timing and spatial distribution to accommodate fixed environmental niches vs. evolutionary adaptation of timing controls to maintain fixed biogeography and seasonality), (ii) broader understanding of phenology at the species and community level (e.g. for zooplankton beyond Calanus and for phytoplankton beyond chlorophyll), (iii) improving and diversifying statistical metrics for indexing timing and trophic synchrony and (iv) improved consideration of spatio-temporal scales and the Lagrangian nature of plankton assemblages to separate time from space changes.This study was supported by NSF grants to R.J.: OCE-0727033, 0815838 and 0732152. NSF grants to A.C.T.: OCE-0535386, 0815051 and 0814413. NSF grant to J.A.R.: OCE 0815336
Identifying global synchronies in marine zooplankton populations: issues and opportunities
Analyses of the influences of climate variability on local zooplankton populations and those within ocean basins are relatively recent (past 5–10 years). What is lacking are comparisons of zooplankton population variability among the world's oceans, in contrast to such global comparisons of fish populations. This article examines the key questions, capabilities, and impediments for global comparisons of zooplankton populations using long-term (>10 year) data sets. The key question is whether global synchronies in zooplankton populations exist. If yes, then (i) to what extent are they driven by “bottom-up” (productivity) or “top-down” (predation) forcing; (ii) are they initiated by persistent forcing or by episodic events whose effects propagate through the system with different time-lags; and (iii) what proportion of the biological variance is caused directly by physical forcing and what proportion might be caused by non-linear instabilities in the biological dynamics (e.g. through trophodynamic links)? The capabilities are improving quickly that will enable global comparisons of zooplankton populations. Several long-term sampling programmes and data sets exist in many ocean basins, and the data are becoming more available. In addition, there has been a major philosophical change recently that now recognizes the value of continuing long-term zooplankton observation programmes. Understanding of life-history characteristics and the ecosystem roles of zooplankton are also improving. A first and critical step in exploring possible synchrony among zooplankton from geographically diverse regions is to recognize the limitations of the various data sets. There exist several impediments that must be surmounted before global comparisons of zooplankton populations can be realized. Methodological issues concerned with the diverse spatial and temporal scales of “monitored” planktonic populations are one example. Other problems include data access issues, structural constraints regarding funding of international comparisons, and lack of understanding by decision-makers of the value of zooplankton as indicators of ecosystem change. We provide recommendations for alleviating some of these impediments, and suggest a need for an easily understood example of global synchrony in zooplankton populations and the relation of those signals to large-scale climate drivers
Chaotic advection of reacting substances: Plankton dynamics on a meandering jet
We study the spatial patterns formed by interacting populations or reacting
chemicals under the influence of chaotic flows. In particular, we have
considered a three-component model of plankton dynamics advected by a
meandering jet. We report general results, stressing the existence of a
smooth-filamental transition in the concentration patterns depending on the
relative strength of the stirring by the chaotic flow and the relaxation
properties of planktonic dynamical system. Patterns obtained in open and closed
flows are compared.Comment: 5 pages, 3 figues, latex compiled with modegs.cl
Comparison of zooplankton data collected by a continuous semi-automatic sampler (CALPS) and a traditional vertical ring net
We compared and evaluated the performance of a Continuous Automatic Litter and Plankton Sampler (CALPS) against the traditional ring net vertical haul. CALPS is a custom-made semi-automatic sampler, which collects water using a pump system at a single depth along a predetermined transect as the ship sails. CALPS underestimated species abundance compared to the ring net by a factor 1.61, but both datasets illustrated a similar species composition, community size structure and good agreement in the spatial distribution of abundance. Our analysis suggests that avoidance of the CALPS is likely to be the main factor responsible for the observed difference in sampling efficiency, but other factors, such as depth, area sampled and zooplankton patchiness, are also likely to play their part. We conclude that whilst the CALPS is not suitable for investigations that require accurate measures of abundance, it is an ideal tool to identify and quantify changes in plankton communities and diversity. A particular advantage over more traditional vertical sampling methods is that it can be integrated within existing multidisciplinary surveys at little extra cost, thus making the CALPS particularly valuable as part of integrated monitoring programmes to underpin policy areas such as the EU Marine Strategy Framework Directive
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