Your search keyword '"Mats Westerbom"' showing total 13 results

1. Metabolism of a subtidal rocky mussel reef in a high-temperate setting: pathways of organic C flow

Author

Karl M. Attard, Andrew O. M. Mogg, Iván F. Rodil, Alf Norkko, Mats Westerbom, Peter Berg, Ronnie N. Glud, Ecosystems and Environment Research Programme, Tvärminne Benthic Ecology Team, Marine Ecosystems Research Group, Tvärminne Zoological Station, and Biological stations

Subjects

0106 biological sciences, Rugosity, Baltic Sea, 010504 meteorology & atmospheric sciences, education, Seafloor ecosystem, Aquatic Science, 01 natural sciences, Oxygen fluxes, Photic zone, 14. Life underwater, Reef, 1172 Environmental sciences, Ecology, Evolution, Behavior and Systematics, 0105 earth and related environmental sciences, Carbon cycling, geography, geography.geographical_feature_category, Primary production, Ecology, biology, Seafloor ecosystems, Respiration, 010604 marine biology & hydrobiology, Mytilus trossulus, Biodiversity, Mussel, biology.organism_classification, Light intensity, Metabolism, Seagrass, Oceanography, Environmental science

Abstract

Mytilid mussels form abundant, species-rich reefs on rocky substrates, but the role of this key habitat in carbon (C) cycling remains poorly understood. We performed a seasonal study on a 5 m deep photicMytilus trossulusreef in the Central Baltic Sea to investigate pathways and rates of organic C flow. Reef gross primary production (GPP) and respiration (R) were estimated seasonally using underwater O2eddy covariance on hourly and daily timescales. Photogrammetry and biotic sampling were used to quantify reef rugosity and mussel coverage, and to derive mussel filtration and biodeposition. Mussels were highly abundant, reaching ~50000 ind. m-2, and the reef structure increased the seabed surface area by 44%. GPPhourlywas up to 20 mmol O2m-2h-1and GPPdailywas up to 107 mmol O2m-2d-1, comparable to a nearby seagrass canopy. Hourly eddy fluxes responded linearly to light intensity and flow velocity, with higher velocities enhancing reef O2uptake at night. ReefRdailyexceeded GPPdailyon 12 of 13 measurement days, andRannual(29 mol O2m-2yr-1) was 3-fold larger than GPPannual. The reef sustained a productive community of microbes and fauna whose activities accounted for ~50% ofRannual. Horizontal water advection promoted food supply to the reef and likely facilitated substantial lateral C export of mussel biodeposits. Our analyses suggest that a reduction in mussel reef extent due to ongoing environmental change will have major implications for the transport and transformation of C and nutrients within the coastal Baltic Sea.

Published

2020

2. Population Dynamics at the Range Margin: Implications of Climate Change on Sublittoral Blue Mussels (Mytilus trossulus)

Author

Mats Westerbom, Olli Mustonen, Kim Jaatinen, Mikael Kilpi, Alf Norkko, Tvärminne Zoological Station, Tvärminne Benthic Ecology Team, Ecosystems and Environment Research Programme, and Marine Ecosystems Research Group

Subjects

RECRUITMENT, IMPACTS, 0106 biological sciences, climate variability, environmental gradient, 010504 meteorology & atmospheric sciences, Environmental change, lcsh:QH1-199.5, Species distribution, Population, Ocean Engineering, Biology, lcsh:General. Including nature conservation, geographical distribution, Aquatic Science, Oceanography, 01 natural sciences, LIMITS, EDULIS, edge of the range, Abundance (ecology), 14. Life underwater, education, lcsh:Science, 1172 Environmental sciences, SPATIAL SYNCHRONY, 0105 earth and related environmental sciences, Environmental gradient, Water Science and Technology, education.field_of_study, Global and Planetary Change, Ecology, 010604 marine biology & hydrobiology, Population size, Mytilus trossulus, SHIFTS, central-marginal hypothesis, DRIVEN, biology.organism_classification, synchronized recruitment, monitoring, NORTH-SEA, 13. Climate action, rocky shore, estuarine, BALTIC SEA, ABUNDANCE, lcsh:Q, Blue mussel

Abstract

Examining changes in abundance and demographic rates at species distribution margins may provide the first signs of broader species responses to environmental change. Still, the joint impact of space and time have remained relatively unstudied in most marginal regions. In order to examine the influence of climate variability on mussel distribution patterns, we monitored three sublittoral and marginal blue mussel (Mytilus trossulus) populations, spaced along a salinity gradient. Densities and biomasses peaked toward the saltier parts of the study area and showed relatively larger variations toward the low saline edge. Temporally, the areas showed a consistent increase in abundance after a synchronized large-scale recruitment event, which was followed by a decline in population size, occurring much faster toward the very range edge. Salinity, temperature, winter severity, and wave exposure explained most of the spatiotemporal variation in mussel abundances and adults showed positive effects on recruit abundance. We show empirically that the dynamics of edge populations are not driven by large changes in climate variables but that small spatial and temporal changes in key environmental variables have large and non-linear population level effects. Our results also show that fluctuating recruitment is a key factor for population stability affecting the storage potential of marginal populations, which dramatically decrease toward the edge. Our study provides a window into future population patterns and processes that drive marginal mussel populations in an altered sea characterized by rising temperature and declining salinity.

Published

2019

3. Depth-related spatial patterns of sublittoral blue mussel beds and their associated macrofaunal diversity revealed by geostatistical analyses

Author

Eliecer Díaz, Johan Erlandsson, Patrik Kraufvelin, and Mats Westerbom

Subjects

Ecology, biology, Biodiversity, Mussel, Aquatic Science, biology.organism_classification, Mytilus, Spatial heterogeneity, Oceanography, Abundance (ecology), Spatial ecology, Foundation species, Ecology, Evolution, Behavior and Systematics, Blue mussel

Abstract

The blue mussel Mytilus edulis is a foundation species with ecosystem engineering functions in the brackish, non-tidal Baltic Sea. In this study from the western Gulf of Finland, the relationship between the spatial patchiness of blue mussels and the diversity of associated macrofauna was examined across small scales (centimeters to meters) for the first time in subtidal habitats. It was demonstrated using geostatistical tools that blue mussel abundance and the diversity of associated macrofauna varied and interacted at 2 depths. Classic analyses (ANOVAs, correlations and multivariate techniques) detected no relationships between the abundance of blue mussels and their associated macrofaunal diversity, or differences in the abundance of mussels or the diversity of associated macrofauna between depths. Using semivariograms, differences in spatial heterogeneity between depths emerged: i.e. patchiness at 5 m and random patterns at 8 m depth. Cross-semivariograms detected negative spatial co-variation between blue mussel abundance and diversity of macrofauna at 5 m, but positive and neutral spatial relationships at 8 m depth. Combining the approaches suggested that high dislodgment of mussels in shallow environments causes this pattern. Dislodgement effects may be compensated for by increased turnover of small mussels in patches within mussel beds, which would result in reduced habitat space for associated macrofauna. On the basis of our results, it is suggested that patchiness of a foundation species is an ecological response, or result of a disturbance, that reduces the diversity of the associated macrofaunal community.

Published

2015

4. Trophic overlap between expanding and contracting fish predators in a range margin undergoing change

Author

Mats Westerbom, Olli Mustonen, Alf Norkko, Antti Lappalainen, Tvärminne Zoological Station, Tvärminne Benthic Ecology Team, Ecosystems and Environment Research Programme, and Marine Ecosystems Research Group

Subjects

0106 biological sciences, Sympatry, Range (biology), Mytilus edulis, BLUE MUSSELS, Population Dynamics, lcsh:Medicine, Fresh Water, Flounder, 01 natural sciences, Predation, PERCH PERCA-FLUVIATILIS, lcsh:Science, Trophic level, education.field_of_study, Multidisciplinary, CLIMATE-CHANGE, biology, ROACH RUTILUS-RUTILUS, Ecology, COASTAL FISH, NORTHERN BALTIC SEA, MYTILUS-EDULIS, Seasons, Rutilus, Blue mussel, animal structures, Food Chain, Population, Cyprinidae, Coastal fish, Nutritional Status, 010603 evolutionary biology, Article, FOOD, Animals, 14. Life underwater, education, 1172 Environmental sciences, Ecosystem, Mytilus, 010604 marine biology & hydrobiology, lcsh:R, fungi, biology.organism_classification, Diet, 13. Climate action, Predatory Behavior, lcsh:Q, FLOUNDER PLATICHTHYS-FLESUS

Abstract

Climate change is predicted to cause a freshening of the Baltic Sea, facilitating range expansions of freshwater species and contractions of marine. Resident marine flounders (Platichthys flesus) and expansive freshwater roach (Rutilus rutilus) are dominant consumers in the Baltic Sea sublittoral where they occur in partial sympatry. By comparing patterns of resource use by flounders and roach along a declining resource gradient of blue mussels (Mytilus trossulus) our aim was to explore predator functional responses and the degree of trophic overlap. Understanding the nature of density-dependent prey acquisition has important implications for predicting population dynamics of both predators and their shared prey. Results showed a highly specialized diet for both species, high reliance on blue mussels throughout the range, similar prey size preference and high trophic overlap. Highest overlap occurred where blue mussels were abundant but overlap was also high where they were scarce. Our results highlight the importance of a single food item - the blue mussel - for both species, likely promoting high population size and range expansion of roach. Findings also suggest that range expansion of roach may have a top-down structuring force on mussels that differ in severity and location from that originating from resident flounders.

Published

2017

5. Sex-specific distribution and diet of Platichthys flesus at the end of spawning in the northern Baltic Sea

Author

Janica Borg, Hannu Lehtonen, and Mats Westerbom

Subjects

biology, Range (biology), Ecology, fungi, Aquatic Science, biology.organism_classification, Platichthys, Mytilus, Benthic zone, Molluscivore, 14. Life underwater, EUROPEAN FLOUNDER, Ecology, Evolution, Behavior and Systematics, Macoma balthica, Invertebrate

Abstract

This study examined the relationship of seascape structure, prey availability and sex on the post-spawning distribution and diet of European flounder Platichthys flesus in the northern Baltic Sea. The objectives were to determine whether: (1) wave exposure and substratum affect abundance and distribution of P. flesus, (2) diet reflects the benthic prey composition and (3) sex affects the distribution or diet of P. flesus. The results showed that P. flesus was evenly spread in the archipelago with no correlation to wave exposure. The distribution was, however, sex specific; reproductive males dominated the exposed zone and mainly post-reproductive females dominated the intermediate and sheltered zones. Platichthys flesus fed mainly on two bivalve prey species: blue mussels Mytilus edulis and Baltic tellins Macoma balthica. Hard substratum invertebrates dominated the diet in all habitats and apart from some typical soft substratum species, there was no clear link between fish feeding and the dominance structure of benthic prey. Diet was further sex specific, with females showing a broader range of diet than males. Results suggest that P. flesus is a specialist molluscivore found commonly and equally in soft- and hard-substratum habitats throughout the archipelago area. Previous studies on P. flesus in the Baltic Sea have yielded inconsistent results regarding diet and it has commonly been believed that the distribution of Baltic Sea P. flesus is linked to sand and soft substrata. The present findings emphasize the importance of including the entire range of habitats when diet and regional species distributions are assessed.

Published

2014

6. Regime shifts in vegetation composition of Baltic Sea coastal lagoons

Author

Alfred Sandström, Kajsa Rosqvist, Johanna Mattila, Martin Snickars, and Mats Westerbom

Subjects

Abiotic component, Chara, geography, geography.geographical_feature_category, biology, Ecology, Plant Science, Ecological succession, Aquatic Science, biology.organism_classification, Aquatic plant, Archipelago, Dominance (ecology), Environmental science, Regime shift, Species richness

Abstract

Vegetation communities, morphometric and water quality variables were sampled in 62 undisturbed coastal lagoons along a natural land-uplift gradient in the northern Baltic Sea. The lagoons had a morphological inlet threshold reflecting habitat isolation (i.e. the diminished connectedness of the lagoon to the sea) and located in different parts of the archipelago (corresponding to altering wave exposure). We used indirect multivariate methods to find changes in vegetation composition, and axes derived from the analyses were used in correlation and stepwise multiple regression analyses together with environmental variables. Habitat isolation proved to be the strongest predictor for vegetation composition. To identify significant change-points we used a method, which detects regime shifts by accounting for differences in chronological series and gives a regime shift index. Significant shifts in habitat isolation, average depth and total nitrogen were followed by shifts in species variables (i.e. dominant species, cover and species richness) and salinity, total phosphorus and turbidity. Of the species, especially Chara tomentosa showed a shift of high magnitude. Also a shift in wave exposure mirroring position of lagoons in the archipelago structured the species, but this division was seen only for less isolated lagoons. Our results suggest that lagoons are primarily structured by habitat isolation forming two structurally different regimes: one of less isolated lagoons dominated by a diverse array of vascular plants and marine algae of both outer and inner archipelago characters, and one with isolated lagoons dominated by high vegetation cover and dominance of Chara. In addition, vegetation seemed to stabilize water quality in the isolated regime by reducing turbidity and phosphorus, indicating a potential feed-back mechanism and a shift in structuring disturbances from abiotic to biotic factors with habitat isolation.

Published

2010

7. Microhabitat segregation of the amphipod genus Gammarus (Crustacea: Amphipoda) in the Northern Baltic Sea

Author

Samuli Korpinen and Mats Westerbom

Subjects

Ecological niche, Amphipoda, Ecology, Aquatic Science, Biology, Spatial distribution, biology.organism_classification, Habitat, Gammarus, Sympatric speciation, Littoral zone, Ecosystem, Ecology, Evolution, Behavior and Systematics

Abstract

Closely related species may occupy very similar niches but are often found to diverge by one or more traits when they share the same habitat. Five indigenous and sympatric Gammarus species are characteristic for the Baltic rocky littoral ecosystem. Yet, the species-specific distribution of these sympatric gammarids has not been well studied in the northern Baltic Sea. This study was undertaken to assess the spatial distribution of gammarid amphipods along wave exposure and depth gradients to study whether they show segregation in their microhabitat use. We sampled 12 rocky sublittoral shores along a wave exposure gradient over a period of 5 years. Samples differed with respect to depth and macroalgal type. Three of the five gammarid species occurred mainly in different depth zones and among different macroalgae at the exposed shores. In contrast, on protected shores, where algal zonation is weaker, a link to zonation and macroalgal type was almost absent. Moreover, the microhabitat use was strongest during the reproductive seasons of the species. The observed microhabitats of the three gammarid species fit well to their species-specific mean body sizes.

Published

2009

8. Distribution of a marginal population of Mytilus edulis: responses to biotic and abiotic processes at different spatial scales

Author

Olli Mustonen, Mats Westerbom, and Mikael Kilpi

Subjects

Abiotic component, education.field_of_study, animal structures, Ecology, biology, fungi, Population, Mussel, Aquatic Science, Bivalvia, biology.organism_classification, Substrate (marine biology), Mytilus, Spatial variability, education, Ecology, Evolution, Behavior and Systematics, Blue mussel

Abstract

Physical and biological processes interact to produce pattern in nature. Pattern is scale dependent as processes generating pattern are heterogeneous in time and space. We tested some causes of variation in abundance and distribution of three marginal populations of sublittoral blue mussels, Mytilus edulis, in the non-tidal northeastern Baltic Sea. We studied the role of substrate inclination, perennial algae and siltation along local wave exposure gradients on mussel distribution over a regional salinity gradient. We found marked differences on regional scales (p < 0.001) with lower densities and biomasses of mussels with declining salinity. Along local gradients, mussel densities increased with increasing exposure (p < 0.001) and declining slope and sedimentation (p < 0.01). Site specifically, densities of blue mussels and the perennial red algae, Furcellaria lumbricalis, were positively related, results supported by a colonisation experiment. Also, young post-recruits showed significant relations to adult biomass, wave exposure, algal biomass, bottom slope and sediment cover. Findings showed that the relative importance of the determinants affecting blue mussels at the edge of their range vary with scale and are affected by the density and size structure of mussel populations. The study provides an indication of the types of factors that may be invoked as causes of spatial variation in marginal blue mussel populations and reinforces the need to consider multiple aspects when distributional patterns are assessed.

Published

2008

9. Invariant size selection of blue mussels by roach despite variable prey size distributions

Author

Mats Westerbom, Olli Mustonen, and Antti Lappalainen

Subjects

Ecology, biology, Mussel, Aquatic Science, biology.organism_classification, Mytilus, Optimal foraging theory, Predation, Rutilus, Predator, Ecology, Evolution, Behavior and Systematics, Blue mussel, Trophic level

Abstract

Predation is a key trophic component with a potentially large influence on rocky shore community organization. We studied prey size selection by roach Rutilus rutilus, feeding on blue mussels Mytilus edulis in the northeastern Baltic Sea. In this region, roach feed extensively on abun- dant populations of blue mussels living at the very edge of their range primarily set by low salinity conditions. The study area is characterised by a marked decline in mean mussel size from the saltier west to the less salty east. We predicted that average prey size of roach would decrease with decreas- ing availability of larger prey but increase with increasing size of the predator. The size of mussels ingested by roach ranged from 2 to 28 mm, largely covering the size distribution of blue mussels in the area. In accordance with our prediction, body size of the predator was the foremost factor deter- mining patterns of prey selection and mean prey size increased steadily with increasing size of the predator. Roach were size selective, preferring median and large mussels in proportions different from their accessibility in the habitat. Contrary to our expectations, no differences between the areas were seen regarding prey size selection. These results contrast with optimal foraging theory predict- ing that predators under higher prey densities decrease the proportion of less profitable prey. Our results suggest that roach have the potential to significantly affect the blue mussel dynamics in areas with poor prey availability and we predict that ongoing environmental change in the Baltic will likely increase its impact.

Published

2006

10. Effects of wave exposure on the sublittoral distribution of blue mussels Mytilus edulis ina heterogeneous archipelago

Author

Sofia Jattu and Mats Westerbom

Subjects

geography, animal structures, geography.geographical_feature_category, Ecology, fungi, Seston, Sediment, Mussel, Aquatic Science, Biology, Bivalvia, biology.organism_classification, Mytilus, Rocky shore, Oceanography, Archipelago, Ecology, Evolution, Behavior and Systematics, Blue mussel

Abstract

Exposure to wave action is an important factor determining the distribution and abun-dance of marine species on rocky shores. We studied the primary and secondary effects of waveexposure on sublittoral blue mussel Mytilus edulis populations in a fragmented archipelago in thetideless northeastern Baltic Sea. Triplicate bottom samples were collected by SCUBA divers from4 depths at 30 locations along a wave exposure gradient defined by an exposure index. From 15 ofthese locations, water samples were collected in order to measure physicochemical and biologicalconditions at each site. Results showed that mussel densities increased steadily with increasing waveexposure. Biomasses, however, were highest at areas with intermediate exposure. Water chemistry,seston and chlorophyll a concentrations did not differ between locations. Recruitment and growthexperiments on artificial substrata carried out at the same 30 locations showed that exposure neitherinfluenced the abundance of recruits on ropes nor markedly influenced the growth of adult mussels.This suggests that lack of mussels at less exposed localities may originate from problems in recruit-ment processes to adult populations or early post-recruitment mortality. We hypothesize that eventhin films of stagnant sediment on rocks may have a profoundly negative effect on mussel recruit-ment. Results suggest that increasing sedimentation of rocky bottoms may limit the spatial distri-bution of mussels, pushing stable mussel beds towards outermost areas of the archipelago wherestrong wave action keeps bottoms free of sediments.KEY WORDS: Physical stress · Predation · Recruitment · Rocky shore · Sedimentation · Artificialsubstrata · Wave exposure index · Depth distribution

Published

2006

11. Roach (Rutilus rutilus) as an important predator on blue mussel (Mytilus edulis) populations in a brackish water environment, the northern Baltic Sea

Author

Olli Heikinheimo, Mats Westerbom, and Antti Lappalainen

Subjects

education.field_of_study, Ecology, biology, Population, Mussel, Aquatic Science, biology.organism_classification, Bivalvia, Mytilus, Predation, Fishery, Freshwater fish, Rutilus, education, Ecology, Evolution, Behavior and Systematics, Blue mussel

Abstract

Suspension-feeding bivalves are organisms of major functional importance in several aquatic environments around the world. They are also important food items for many fish and benthivorous seabirds. It has commonly been thought that predation pressure on blue mussel (Mytilus edulis) populations is negligible in the Baltic Sea, owing to the scarcity of major invertebrate predators such as starfish and crabs. It has recently been shown, however, that the blue mussel is the main food item for roach (Rutilus rutilus) in the archipelago areas of the western Gulf of Finland, where this freshwater fish species has become increasingly abundant, mainly due to increased eutrophication. To quantify the influence of roach predation on blue mussel populations we measured the standing biomass and size structure of the local blue mussel population and used a bioenergetic model to estimate mussel consumption by individual roach during two consecutive summers, 1997 and 1998. The results of the model were combined with existing data on roach abundance, giving annual consumption estimates of 75–105 kg blue mussel dry weight ha−1 in the study area, approximately two-thirds of these consumed mussels being >10 mm. This corresponds to approximately one-third of the standing population of mussels >10 mm in the area. Our results suggest that the predation effects of vertebrates on Baltic blue mussel populations are not insignificant, as previously believed. Predation by roach and other predators may have an important structuring effect on unstable blue mussel communities within the Gulf of Finland, where the species lives at the edge of its range.

Published

2005

12. Blue mussels (Mytilus edulis) in the diet of roach (Rutilus rutilus) in outer archipelago areas of the western Gulf of Finland, Baltic Sea

Author

Mats Westerbom, Antti Lappalainen, and Sami Vesala

Subjects

0106 biological sciences, geography, geography.geographical_feature_category, biology, 010604 marine biology & hydrobiology, Mussel, Aquatic Science, biology.organism_classification, Bivalvia, 010603 evolutionary biology, 01 natural sciences, Mytilus, Fishery, Archipelago, Freshwater fish, 14. Life underwater, Rutilus, Mollusca, Blue mussel

Abstract

The blue mussel (Mytilus edulis) is one of the key species in the Baltic Sea ecosystem and it is living at the edge of its range in the western Gulf of Finland. Roach (Rutilus rutilus) is a freshwater fish species that has benefited from recent coastal eutrophication and is at present highly abundant in the outer archipelago of the Gulf of Finland. In 2000 and 2001, a total of 516 roach were sampled for diet analysis in three study areas. Shelled molluscs formed over 95% of the diet of roach, blue mussels being the dominant single species. The proportion of this species in the food of roach in the three study areas ranged between 38–61% for smaller roach ( 225 mm) roach, indicating that blue mussel is a highly important food source for roach in outer archipelago areas of the western Gulf of Finland, in contrast to reports from other parts of the northern Baltic Sea. The scarcity of large blue mussels in mussel beds in the easternmost study area was reflected in the lower proportion of blue mussels in the diet of larger roach. However, the growth of roach was not affected by the availability of blue mussels. The twofold differences observed in the annual growth of roach between warm and cold years demonstrated that temperature is an important factor controlling the growth of roach in the western Gulf of Finland.

Published

2004

13. Blue mussels, Mytilus edulis , at the edge of the range: population structure, growth and biomass along a salinity gradient in the north-eastern Baltic Sea

Author

Mikael Kilpi, Mats Westerbom, and Olli Mustonen

Subjects

0106 biological sciences, animal structures, Ecology, biology, 010604 marine biology & hydrobiology, fungi, Pelagic zone, Mussel, Aquatic Science, biology.organism_classification, Bivalvia, 010603 evolutionary biology, 01 natural sciences, Mytilus, Salinity, Rocky shore, Oceanography, Benthic zone, 14. Life underwater, Ecology, Evolution, Behavior and Systematics, Blue mussel

Abstract

The blue mussel, Mytilus edulis, is the most conspicuous animal species in the northern Baltic rocky sublittoral. In the studied area the species lives at the margin of its salinity tolerance. Although dwarfed by the low-salinity conditions, blue mussels in the northern Baltic are very abundant and have a decisive role in the benthic and pelagic ecosystems. We studied abundance, size distribution, biomass and growth rate of blue mussels along a 270 km salinity gradient in the northern Baltic Sea. Samples (n=317, 1998–1999) from moderately exposed and exposed rocky shores at seven study areas were collected in the southern Archipelago Sea in the west and into the central Gulf of Finland in the east, where the species is becoming increasingly rare. The results show a marked decline in mean mussel size and biomass from the saline west to the less saline east. The growth rate also decreased with lower ambient salinity. However, abundance of small mussels was considerably higher in the central and eastern parts of the study area. Vertically, the highest biomass was recorded at intermediate depths (5 and 8 m), being lower at both shallower (3 m) and deeper bottoms (12 m). It is concluded that salinity is the foremost factor determining size structure and growth rate among populations within the area. The results suggest that predation further influences the population structure of blue mussels living at the edge of their range in the central Gulf of Finland ultimately set by their salinity tolerance.

Published

2002