Your search keyword '"*PHYTOPLANKTON populations"' showing total 703 results

151. Species-based classification reveals spatial processes of phytoplankton meta-communities better than functional group approaches: a case study from three freshwater lake regions in China.

Author

Xiao, Li-Juan, Zhu, Yiqiu, Yang, Yang, Lin, Qiuqi, Han, Bo-Ping, and Padisák, Judit

Subjects

PHYTOPLANKTON, PHYTOPLANKTON populations, TAXONOMY, HABITATS, FUNCTIONAL groups

Abstract

Phytoplankton communities respond rapidly to environmental selection at a given locality, and they are also shaped by spatial processes at certain scales. The extracted effect of environmental selection and spatial processes may vary if different classification approaches are applied to phytoplankton and the spatial scales. In this study, summer phytoplankton of 43 lakes from three major lake regions in China were investigated and phytoplankton were classified with three approaches: taxonomy of species, habitat template-based functional groups, and morphology-based functional groups. Within a single lake region, the pattern of phytoplankton meta-community was significantly explained by environmental but not by spatial variables. In a larger scale covering all the three lake regions, both environmental and spatial variables explained the variance of the phytoplankton community, but the spatial variables were detected only by classification with species, and only the environmental variables were detected with phytoplankton functional groups. This study revealed that although vegetative populations of different species sorted into the same functional group have common response to environmental changes, their dispersal abilities, mechanisms, and strategies might differ markedly and therefore the species-specific approach cannot be disregarded when studying phytoplankton patterns at spatial scales. [ABSTRACT FROM AUTHOR]

Published

2018

152. Eukaryotic phytoplankton community spatiotemporal dynamics as identified through gene expression within a eutrophic estuary.

Author

Gong, Weida, Paerl, Hans, and Marchetti, Adrian

Subjects

PHYTOPLANKTON populations, SPATIO-temporal variation, MICROBIAL ecology, GENE expression

Abstract

Summary: Over the span of a year, we investigated the interactions between biotic and abiotic factors within the eutrophic Neuse River Estuary (NRE). Through metatranscriptomic sequencing in combination with water quality measurements, we show that there are different metabolic strategies deployed along the NRE. In the upper estuary, taxonomically resolved phytoplankton groups express more transcripts of genes for synthesis of cellular components and carbon metabolism whereas in the lower estuary, transcripts allocated to nutrient metabolism and transport were more highly expressed. Metabolisms for polysaccharide synthesis and transportation were elevated in the lower estuary and could be reflective of unbalanced growth and/or interactions with their surrounding microbial consortia. Our results indicate phytoplankton have high metabolic activity, suggestive of increased growth rates in the upper estuary and display patterns reflective of nutrient limitation in the lower estuary. Among all the environmental parameters varying along the NRE, nitrogen availability is found to be the main driving factor for the observed spatial divergence. [ABSTRACT FROM AUTHOR]

Published

2018

153. Qualitative and quantitative analysis of phytoplankton in Ramala Lake.

Author

Kulkarni, Rajlaxmi R. and S.B., Zade

Subjects

PHYTOPLANKTON populations, FOOD chains, ZOOPLANKTON, BIODIVERSITY, LAKES

Abstract

Plankton are important biotic component of aquatic habitat. They do determine the trophic status and quality of water. The phytoplankton is the base of most of the lake food web. It forms a bulk of food for zooplankton, fishes and other aquatic organisms. The biodiversity of phytoplankton and zooplankton in any water body shows a correlation with reference to their occurrences and physic-chemical factors. The present paper is an attempt to enumerate the phytoplanktonic diversity of the Ramala Lake, Chandrapur, and Maharashtra. Data is collected during the different seasons from November 2006 to October 2007. The plankton community showed the seasonal fluctuations. The phytoplankton population of Ramala Lake was found to be composed of four major groups namely Chlorophyceae (48.40%), Bacillariophyceae (24.81%), Myxophyceae (22.44%) and Euglenophyceae (4.32%). The class Chlorophyceae represented by 11 species stood first quantitatively and qualitatively, Bailloriophyceae by 7 species, Myxophyceae by 5 and Euglenophyceae by only 2 species. [ABSTRACT FROM AUTHOR]

Published

2018

154. Time capsules in natural sediment archives-Tracking phytoplankton population genetic diversity and adaptation over multidecadal timescales in the face of environmental change.

Author

Ellegaard, Marianne, Godhe, Anna, and Ribeiro, Sofia

Subjects

PHYTOPLANKTON populations, PLANT genetics, PLANT diversity, PLANT adaptation, CLIMATE change

Abstract

Undisturbed records of resting stages produced in the past and stored in coastal sediments are very valuable to science, because they may provide unique insights into past evolutionary and ecological trajectories. Within marine phytoplankton, multidecadal time series of monoclonal strains germinated from resting stages have been established for diatoms ( Skeletonema marinoi) and dinoflagellates ( Pentapharsodinium dalei), spanning ca. a century. Phenotypic and genotypic analyses of these time series have revealed effects of past environmental changes on population genetic structure. Future perspectives include direct comparisons of phenotypes and genotypic data of populations, for example, by genomewide assays that can correlate phenotypic trends with genotypes and allele frequencies in temporally separated strains. Besides their usefulness as historical records, 'seed' banks of phytoplankton resting stages also have the potential to provide an inoculum that influences present populations through 'dispersal from the past' (the storage effect) and are important for adaptation to future environments through their standing genetic diversity. [ABSTRACT FROM AUTHOR]

Published

2018

155. Phytoplankton carrying capacity: Is this a viable concept for coastal seas?

Author

Sarker, Subrata and Wiltshire, Karen H.

Subjects

ECOLOGICAL carrying capacity, PHYTOPLANKTON populations, TERRITORIAL waters, TIME series analysis, ECOSYSTEM management, GLOBAL environmental change

Abstract

Carrying capacity estimations for any population of organisms is made in order to determine the maximum population densities that could result under set environmental conditions. Carrying capacity ( K ) is often used in terrestrial ecosystems to estimate potential plant densities (yields) related to the availability of resources. Here we wanted to see whether a similar concept could be applied to the plants of the ocean: Phytoplankton. Using the Helgoland Roads Time Series data sets, the main focus was on those which control phytoplankton growth in the ocean. We aimed to estimate K and determine whether K is static or variable, evaluated the relationship of phytoplankton K with higher trophic levels. We also provided a guideline to use K as ecosystem management tool. Algorithms were developed to estimate the K based on each controlling factor. A pair-wise comparison matrix was used for weighting the controlling factors and then to integrate the estimated K based on controlling factors to obtain an overall K . Long-term intra-annual and inter-annual mean K were estimated 10.13 × 10 7 cells m −3 and 1.30 × 10 8 cells m −3 , respectively. Our analyses suggest that K should not be considered as a static permanent value. This is because it is driven by overall environmental conditions and is subject to change when overall environment change. We linked the estimated K to pelagic fisheries data of the North Sea and found that phytoplankton K is correlated with the pelagic fisheries of this area. Our overall conclusion is that phytoplankton K is a viable concept and could be utilized as a valuable management tool. [ABSTRACT FROM AUTHOR]

Published

2017

156. Phytoplankton community responses to iron and CO enrichment in different biogeochemical regions of the Southern Ocean.

Author

Endo, Hisashi, Hattori, Hiroshi, Mishima, Tsubasa, Hashida, Gen, Sasaki, Hiroshi, Nishioka, Jun, and Suzuki, Koji

Subjects

PHYTOPLANKTON, PHYTOPLANKTON populations, BIOGEOCHEMISTRY, OCEAN acidification, DIATOMS, PRYMNESIOPHYCEAE, MARINE ecology

Abstract

The ongoing rise in atmospheric CO concentration is causing rapid increases in seawater pCO levels. However, little is known about the potential impacts of elevated CO availability on the phytoplankton assemblages in the Southern Ocean's oceanic regions. Therefore, we conducted four incubation experiments using surface seawater collected from the subantarctic zone (SAZ) and the subpolar zone (SPZ) in the Australian sector of the Southern Ocean during the austral summer of 2011-2012. For incubations, FeCl solutions were added to reduce iron (Fe) limitation for phytoplankton growth. Ambient and high (~750 µatm) CO treatments were then prepared with and without addition of CO-saturated seawater, respectively. Non-Fe-added (control) treatments were also prepared to assess the effects of Fe enrichment (overall, control, Fe-added, and Fe-and-CO-added treatments). In the initial samples, the dominant phytoplankton taxa shifted with latitude from haptophytes to diatoms, likely reflecting silicate availability in the water. Under Fe-enriched conditions, increased CO level significantly reduced the accumulation of biomarker pigments in haptophytes in the SAZ and AZ, whereas a significant decrease in diatom markers was only detected in the SAZ. The CO-related changes in phytoplankton community composition were greater in the SAZ, most likely due to the decrease in coccolithophore biomass. Our results suggest that an increase in CO, if it coincides with Fe enrichment, could differentially affect the phytoplankton community composition in different geographical regions of the Southern Ocean, depending on the locally dominant taxa and environmental conditions. [ABSTRACT FROM AUTHOR]

Published

2017

157. Nutrients and phytoplankton in semienclosed lagoon systems in Florida Bay and their responses to changes in flow from Everglades restoration.

Author

Shangguan, Yini, Glibert, Patricia M., Alexander, Jeffrey A., Madden, Christopher J., and Murasko, Susan

Subjects

ESTUARINE restoration, RESTORATION ecology, FRESHWATER flow into estuaries, PHYTOPLANKTON populations, NUTRIENT pollution of water

Abstract

The largest estuarine flow restoration project is the Comprehensive Everglades Restoration Plan (CERP). In 2012, one of its first phases, the C-111 Project, was initiated and designed to increase freshwater flow into northern Florida Bay. Effects of changes in flow and associated nutrients on phytoplankton abundance and composition were studied in two sets of interconnected, quasi-enclosed saline lakes at the southern end of the Everglades that discharge into northern Florida Bay. After C-111 implementation, total dissolved nitrogen (TDN) decreased, driven by especially large declines in [ABSTRACT FROM AUTHOR]

Published

2017

158. Contrasting interannual changes in phytoplankton productivity and community structure in the coastal Canadian Arctic Ocean.

Author

Blais, Marjolaine, Ardyna, Mathieu, Gosselin, Michel, Dumont, Dany, Bélanger, Simon, Tremblay, Jean‐Éric, Gratton, Yves, Marchese, Christian, and Poulin, Michel

Subjects

PHYTOPLANKTON populations, DIATOMS, BIOMASS, NITROGEN

Abstract

The rapid physical changes affecting the Arctic Ocean alter the growth conditions of primary producers. In this context, a crucial question is whether these changes will affect the composition of phytoplankton communities, augment their productivity, and eventually enhance food webs. We combined satellite and model products with in situ datasets collected during fall and provide new insights into the response of phytoplankton biomass and production in the Canadian Arctic by comparing an interior shelf (Beaufort Sea) and an outflow shelf (Baffin Bay). Correlation analysis was used to distinguish between seasonal and interannual variability and revealed that most biological variables are responding to the interannual pressures of climate change. In southeast Beaufort Sea, a change in phytoplankton community composition occurred, with a significant increase in diatoms from 2% (2002) to 37% (2010-2011) of the total protist abundance. In 2011, photosynthetic picoeukaryotes were twice as abundant as in 2002. For these two phytoplankton groups, abundance was correlated with the duration of the open-water period, which also increased and affected vertical stratification and sea-surface temperature. In contrast, there was a sharp decline in centric diatom abundance as well as in phytoplankton biomass and production in northern Baffin Bay over the years considered. These decreases were linked to changes in seasonal progression and sea-ice dynamics through their impacts on vertical stratification and freshwater input. Overall, our results highlight the importance of stratification and the duration of the open-water period in shaping phytoplankton regimes-either oligotrophic or eutrophic-in marine waters of the Canadian Arctic. [ABSTRACT FROM AUTHOR]

Published

2017

159. Evaluation of MERIS Chlorophyll-a Retrieval Processors in a Complex Turbid Lake Kasumigaura over a 10-Year Mission.

Author

Salem, Salem Ibrahim, Strand, Marie Hayashi, Hiroto Higa, Hyungjun Kim, Komatsu Kazuhiro, Kazuo Oki, and Taikan Oki

Subjects

CHLOROPHYLL in water, SPECTRAL imaging, STANDARD deviations, SPATIAL distribution (Quantum optics), PHYTOPLANKTON populations

Abstract

The chlorophyll-a (Chla) products of seven processors developed for the Medium Resolution Imaging Spectrometer (MERIS) sensor were evaluated. The seven processors, based on a neural network and band height, were assessed over an optically complex water body with Chla concentrations of 8.10–187.40 mg·m-3 using 10-year MERIS archival data. These processors were adopted for the Ocean and Land Color Instrument (OLCI) sensor. Results indicated that the four processors of band height (i.e., the Maximum Chlorophyll Index (MCI_L1); and Fluorescence Line Height (FLH_L1)); neural network (i.e., Eutrophic Lake (EUL); and Case 2 Regional (C2R)) possessed reasonable retrieval accuracy with root mean square error (R2) in the range of 0.42–0.65. However, these processors underestimated the retrieved Chla > 100 mg·m-3, reflecting the limitation of the band height processors to eliminate the influence of non-phytoplankton matter and highlighting the need to train the neural network for highly turbid waters. MCI_L1 outperformed other processors during the calibration and validation stages (R2 = 0.65, Root mean square error (RMSE) = 22.18 mg·m-3, the mean absolute relative error (MARE) = 36.88%). In contrast, the results from the Boreal Lake (BOL) and Free University of Berlin (FUB) processors demonstrated their inadequacy to accurately retrieve Chla concentration > 50 mg·m-3, mainly due to the limitation of the training datasets that resulted in a high MARE for BOL (56.20%) and FUB (57.00%). Mapping the spatial distribution of Chla concentrations across Lake Kasumigaura using the seven processors showed that all processors—except for the BOL and FUB—were able to accurately capture the Chla distribution for moderate and high Chla concentrations. In addition, MCI_L1 and C2R processors were evaluated over 10-years of monthly measured Chla as they demonstrated the best retrieval accuracy from both groups (i.e., band height and neural network, respectively). The retrieved Chla of MCI_L1 was more accurate at tracking seasonal and annual variation in Chla than C2R, with only slight overestimation occurring during the springtime. [ABSTRACT FROM AUTHOR]

Published

2017

160. Phytoplankton assemblages in a complex system of interconnected reservoirs: the role of water transport in dispersal.

Author

Hu, Ren, Duan, Xueke, Peng, Liang, Han, Boping, and Naselli-Flores, Luigi

Subjects

PHYTOPLANKTON populations, RESERVOIRS, DISPERSAL (Ecology), WATER quality, MARITIME shipping

Abstract

Phytoplankton in a complex network of reservoirs for drinking water supply was sampled in the dry and flood seasons to understand the role of dispersal through hydrochory and of environmental filters in determining the phytoplankton abundance and composition. The main assumptions tested in the present study are that (i) phytoplankton structure in these waterbodies is strongly dependent on the transportation with the river waters flowing through them and (ii) the importance of this stochastic transportation is decreasing as the connectivity with the river decreases allowing environmental filters to shape phytoplankton structure. The multivariate analysis showed that although phytoplankton was inoculated largely by Pearl River water inputs and inflow among the system, the hydraulic architecture of the reservoir network shaped and modulated the composition and abundance of phytoplankton. [ABSTRACT FROM AUTHOR]

Published

2017

161. Integrating chytrid fungal parasites into plankton ecology: research gaps and needs.

Author

Frenken, Thijs, Alacid, Elisabet, Berger, Stella A., Bourne, Elizabeth C., Gerphagnon, Mélanie, Grossart, Hans ‐ Peter, Gsell, Alena S., Ibelings, Bas W., Kagami, Maiko, Küpper, Frithjof C., Letcher, Peter M., Loyau, Adeline, Miki, Takeshi, Nejstgaard, Jens C., Rasconi, Serena, Reñé, Albert, Rohrlack, Thomas, Rojas ‐ Jimenez, Keilor, Schmeller, Dirk S., and Scholz, Bettina

Subjects

PHYTOPLANKTON populations, CHYTRIDIALES, COMPOSITION of fungi, BIOMASS energy, PARASITE behavior

Abstract

Chytridiomycota, often referred to as chytrids, can be virulent parasites with the potential to inflict mass mortalities on hosts, causing e.g. changes in phytoplankton size distributions and succession, and the delay or suppression of bloom events. Molecular environmental surveys have revealed an unexpectedly large diversity of chytrids across a wide range of aquatic ecosystems worldwide. As a result, scientific interest towards fungal parasites of phytoplankton has been gaining momentum in the past few years. Yet, we still know little about the ecology of chytrids, their life cycles, phylogeny, host specificity and range. Information on the contribution of chytrids to trophic interactions, as well as co-evolutionary feedbacks of fungal parasitism on host populations is also limited. This paper synthesizes ideas stressing the multifaceted biological relevance of phytoplankton chytridiomycosis, resulting from discussions among an international team of chytrid researchers. It presents our view on the most pressing research needs for promoting the integration of chytrid fungi into aquatic ecology. [ABSTRACT FROM AUTHOR]

Published

2017

162. MICROALGAL COMMUNITIES IN THE RIPARIAN SYSTEMS ASSOCIATED WITH LAGOS LAGOON, NIGERIA II. ECOLOGICAL STUDY OF PHYTOPLANKTON FROM ITO-IWOLO CREEK, SOUTH-WEST, NIGERIA.

Author

ADESALU, T. A., ADEBOWALE, A. K., and ANICHEBE, O. J.

Subjects

CHRYSOPHYCEAE, COMMUNITIES, PHYTOPLANKTON populations, WATER temperature, PHYTOPLANKTON, LAGOONS, DIATOMS, EUGLENOIDS

Abstract

A study on indigenous microalgae from sluggish tidal freshwater/brackish mangrove dominated creeks(lto-lwolo) emptying into Lagos Lagoon was carried out for twelve months (February 2010 - January 2011).Samples were obtained using a 55 jum plankton net towed at low speed for 10 minutes. Various physico-chemical parameters were monitored; surface water temperature, P04-P, transparency, NO3-N, S04 2' and silica concentrations. All measured chemical parameters were lower in the rainy season while surface water pH ranged from slightly acidic to alkaline (6.42-8.70), chlorophyll 'a' showed its highest value 0.013[j.g/l in the dry season. There was a remarkable change in seasonal salinity values (14.90%o and 0.10%o) while conductivity values ranged between 0.01 and 20.00 (mS/cm) in raining and dry seasons, respectively. Microalgal flora was dominated by diatoms, which comprised of 85% of the total phytoplankton population with 75 species from 32 genera. Chlorophyta, recorded 9% and was represented by 31 species from 12 genera, while Cyanobacteria (4%) comprising of 17 species from 8 genera, and Euglenophyta, represented by one genus with 4 species recorded 2% of the total phytoplankton population. [ABSTRACT FROM AUTHOR]

Published

2017

163. Algal cell viability assessment: The role of environmental factors in phytoplankton population dynamics.

Author

Wang, Yanyan, Zhai, Wei-dong, and Wu, Chi

Subjects

ALGAL cells, PHYTOPLANKTON populations, POPULATION dynamics, PHYTOPLANKTON, ALGAL blooms, ALGAL growth, CELL survival, DEEP learning, HOLOGRAPHY

Abstract

The viability of algal cells is one of the most fundamental issues in marine ecological research. In this work, a method was designed to identify algal cell viability based on digital holography and deep learning, which divided algal cells into three categories: active, weak, and dead cells. This method was applied to measure algal cells in surface waters of the East China Sea in spring, revealing about 4.34 %–23.29 % weak cells and 3.98 %–19.47 % dead cells. Levels of nitrate and chlorophyll a were the main factors affecting the viability of algal cells. Furthermore, algal viability changes during the heating and cooling were observed in laboratory experiments: high temperatures led to an increase in weak algal cells. This may provide an explanation for why most harmful algal blooms occur in warming months. This study provided a novel insight into how to identify the viability of algal cells and understand their significance in the ocean. [Display omitted] • Based on viability, we divided algal cells into active, weak, and dead cells. • We found 4.34 %–23.29 % weak and 3.98 %–19.47 % dead cells in the East China Sea. • The nitrate level had the greatest effect on the viability of algal cells. • The warming process was more conducive to the occurrence of harmful algal blooms. [ABSTRACT FROM AUTHOR]

Published

2023

164. LAND OF CHANGE.

Author

Fischetti, Mark

Subjects

GLOBAL warming, OCEAN temperature measurement, PHYTOPLANKTON populations, GROUND vegetation cover, SEA ice, PERMAFROST

Published

2019

165. Sediment lipid biomarkers record phytoplankton dynamics of Lake Heihai (Yunnan Province, SW China) driven by climate warming since the 1980s.

Author

Liu, Zhengwen, Zhang, Yongdong, Su, Yaling, Yu, Jinlei, and Jin, Miao

Subjects

LAKE sediments, PHOSPHORUS analysis, IRON, PHYTOPLANKTON populations, ANALYTICAL geochemistry, LAKES

Abstract

Increased phosphorus (P) export from sediments to the overlying water column is a significant factor driving the variation of phytoplankton in productivity and community structure in lakes. However, the lack of long-term instrumental data often impeded analyses attempting to associate dynamics of phytoplankton with variation of internal P loading. Here, elements and lipid biomarkers were analyzed in a sediment core from Lake Heihai, a small, deep, and ultraoligotrophic alpine lake in Haba Mountain, Yunnan Province, SW China. The data document incredible enrichment of element iron (Fe) in the sediment, whose concentrations are much higher than those of other common major elements including titanium (Ti), aluminum (Al), calcium (Ca), and magnesium (Mg). This finding, together with the abundance correlation between P and Fe ( n = 30, R = 0.783) suggested that P was probably retained in sediments through sorption with micro-layer of FeOOH at the sediment-water interface. The P/Ti ratios, P/Fe ratios, and P/total organic carbon (TOC) ratios all declined in the sediment since 1980, perhaps indicating increased P release from sediments to the overlying water column initiated by hypolimnion anoxia and sulfidic, which is presumably triggered by regional climate warming since the 1980s. The P-rich bottom water can be injected into photic zone during wind-driven mixing and overturn of the water column, although its frequency and intensity might decline due to stronger water column stratification in warming climate. In response, diatoms exhibited a rapid increase of productivity at this time, because diatoms have a storage vacuole and thereby nutrients such as P can be concentrated and used for cell division long after they are depleted in the bulk fluid. Elevated diatom biomass produced shading of light penetration, allowing for a low productivity for dinoflagellates. This study deepens our understanding of the impact of climate warming on lake systems and highlights the element biogeochemical cycle contributing to the variation of nutrients in the lake water column. [ABSTRACT FROM AUTHOR]

Published

2017

166. Modelled estimates of spatial variability of iron stress in the Atlantic sector of the Southern Ocean.

Author

Ryan-Keogh, Thomas J., Thomalla, Sandy J., Mtshali, Thato N., and Little, Hazel

Subjects

PHYTOPLANKTON populations, IRON, CHLOROPHYLL, MICRONUTRIENTS, NITRATE reductase, PHOTOSYNTHESIS

Abstract

The Atlantic sector of the Southern Ocean is characterized by markedly different frontal zones with specific seasonal and sub-seasonal dynamics. Demonstrated here is the effect of iron on the potential maximum productivity rates of the phytoplankton community. A series of iron addition productivity versus irradiance (PE) experiments utilizing a unique experimental design that allowed for 24 h incubations were performed within the austral summer of 2015/16 to determine the photosynthetic parameters αB, PBmax and Ek. Mean values for each photosynthetic parameter under iron-replete conditions were 1.46±0.55 (μg (μg Chl a)-1 h-1 (μM photonsm-2 s-1/-1) for αB, 72.55±27.97 (μg (μg Chl a)-1 h-1) for PBmax and 50.84±11.89 (μM photons m-2 s-1) for Ek, whereas mean values under the control conditions were 1.25±0.92 (μg (μg Chl a)-1 h-1 (μM photonsm-2 s-1/-1) for αB, 62.44±36.96 (μg (μg Chl a)-1 h-1) for PB max and 55.81±19.60 (μM photonsm-2 s-1) for Ek. There were no clear spatial patterns in either the absolute values or the absolute differences between the treatments at the experimental locations. When these parameters are integrated into a standard depth-integrated primary production model across a latitudinal transect, the effect of iron addition shows higher levels of primary production south of 50° S, with very little difference observed in the subantarctic and polar frontal zone. These results emphasize the need for better parameterization of photosynthetic parameters in biogeochemical models around sensitivities in their response to iron supply. Future biogeochemical models will need to consider the combined and individual effects of iron and light to better resolve the natural background in primary production and predict its response under a changing climate. [ABSTRACT FROM AUTHOR]

Published

2017

167. Rapid light curves (RLC) or non-sequential steady-state light curves (N-SSLC): which fluorescence-based light response curve methodology robustly characterizes phytoplankton photosynthetic activity and acclimation status?

Author

Houliez, Emilie, Lefebvre, Sébastien, Lizon, Fabrice, and Schmitt, François

Subjects

PHYTOPLANKTON populations, PHOTOSYNTHESIS, FLUORESCENCE, ELECTRON transport, ACCLIMATIZATION

Abstract

This study is the first in situ work comparing rapid light curves (RLC) and non-sequential steady-state light curves (N-SSLC) in their efficiency to characterize phytoplankton photosynthetic activity and acclimation status. Measurements were carried out at two time scales (daily and annual) using the Pulse Amplitude Modulated fluorometry on samples taken in the coastal waters of a macrotidal ecosystem (the Strait of Dover, eastern English Channel). RLC and N-SSLC were compared under a wide range of environmental conditions and phytoplankton composition in order to define the best methodology to accurately capture short and long-term adjustments in the functioning of the photosynthetic apparatus. The relationships between the photosynthetic parameters extracted from RLC and N-SSLC were also studied to evaluate the possibility to use RLC to predict N-SSLC photosynthetic parameters and thus obtaining the acclimation status at steady state. At daily scale, the maximum electron transport rate and light saturation coefficient resulting from RLC (respectively, ETR and E ) were found to follow more closely short-term environmental light variations than ETR and E resulting from N-SSLC (ETR and E ) did. RLC were thus able to detect rapid changes in photosynthetic activity that would have been overlooked with N-SSLC measurements. At annual scale, few differences were found between RLC and N-SSLC. Variations of ETR and α derived from RLC and N-SSLC were very similar but absolute values were lower for RLC measurements. Because, at daily scale, RLC better capture the short-term changes in photosynthetic activity than N-SSLC do, using RLC to predict N-SSLC photosynthetic parameters and getting information about steady-state acclimation status is not possible at this time scale. However, this can be done at seasonal scale. [ABSTRACT FROM AUTHOR]

Published

2017

168. The contribution of component variation and phytoplankton growth to the distribution variation of chromophoric dissolved organic matter content in a mid-latitude subtropical drinking water source reservoir for two different seasons.

Author

Sun, Qiyuan, Jiang, Juan, Zheng, Yuyi, Wang, Feifeng, Wu, Chunshan, and Xie, Rong-rong

Subjects

DISSOLVED organic matter, PHYTOPLANKTON populations, WATER pollution, BIOGEOCHEMICAL cycles, FULVIC acids

Abstract

The distribution variation in chromophoric dissolved organic matter (CDOM) content in mid-latitude subtropical drinking water source reservoirs (MDWSRs) has great significance in the security of aquatic environments and human health. CDOM distribution is heavily influenced by biogeochemical processes and anthropogenic activity. However, little is known regarding the impact of component variation and phytoplankton growth on CDOM distribution variation in MDWSR. Therefore, samples were collected from a representative MDWSR (the Shanzai Reservoir) for analysis. CDOM absorption and fluorescence coupling with parallel factor analysis were measured and calculated. The results indicated that only two CDOM components were found in the surface water of Shanzai Reservoir, fulvic acid, and high-excitation tryptophan, originating from terrestrial and autochthonous sources, respectively. The types of components did not change with the season. The average molecular weight of CDOM increased in proportion to its fulvic acid content. The distribution variation in CDOM content mainly resulted from the variation in two CDOM components in summer and from high-excitation tryptophan in winter. Phytoplankton growth strongly influenced the distribution variation of CDOM content in summer; the metabolic processes of Cyanobacteria and Bacillariophyta consumed fulvic acid, while that of Cryptophyta produced high-excitation tryptophan. [ABSTRACT FROM AUTHOR]

Published

2017

169. Morphological and transcriptomic evidence for ammonium induction of sexual reproduction in Thalassiosira pseudonana and other centric diatoms.

Author

Moore, Eric R., Bullington, Briana S., Weisberg, Alexandra J., Jiang, Yuan, Chang, Jeff, and Halsey, Kimberly H.

Subjects

THALASSIOSIRA pseudonana, DIATOMS, PHYTOPLANKTON populations, RNA sequencing, PHYSIOLOGICAL effects of ammonium, PHYSIOLOGY

Abstract

The reproductive strategy of diatoms includes asexual and sexual phases, but in many species, including the model centric diatom Thalassiosira pseudonana, sexual reproduction has never been observed. Furthermore, the environmental factors that trigger sexual reproduction in diatoms are not understood. Although genome sequences of a few diatoms are available, little is known about the molecular basis for sexual reproduction. Here we show that ammonium reliably induces the key sexual morphologies, including oogonia, auxospores, and spermatogonia, in two strains of T. pseudonana, T. weissflogii, and Cyclotella cryptica. RNA sequencing revealed 1,274 genes whose expression patterns changed when T. pseudonana was induced into sexual reproduction by ammonium. Some of the induced genes are linked to meiosis or encode flagellar structures of heterokont and cryptophyte algae. The identification of ammonium as an environmental trigger suggests an unexpected link between diatom bloom dynamics and strategies for enhancing population genetic diversity. [ABSTRACT FROM AUTHOR]

Published

2017

170. Planktotrons: A novel indoor mesocosm facility for aquatic biodiversity and food web research.

Author

Gall, Andrea, Uebel, Udo, Ebensen, Uwe, Hillebrand, Helmut, Meier, Sandra, Singer, Gabriel, Wacker, Alexander, and Striebel, Maren

Subjects

AQUATIC biodiversity, FOOD chains, PLANKTON, MARINE plankton, PHYTOPLANKTON populations, BIODIVERSITY research

Abstract

We established a new indoor mesocosm facility, 12 fully controlled 'Planktotrons', designed to conduct marine and freshwater experiments for biodiversity and food web approaches using natural or artificial, benthic or planktonic communities. The Planktotrons are a unique and custom-tailored facility allowing long-term experiments. Wall growth can be inhibited by a rotating gate paddle with silicone lips. Additionally, temperature and light intensity are individually controllable for each Planktotron and the large volume (600 L) enables high-frequency or volume-intense measurements. In a pilot freshwater experiment various trophic levels of a pelagic food web were maintained for up to 90 d. First, an artificially assembled phytoplankton community of 11 species was inoculated in all Planktotrons. After 22 d, two ciliates were added to all, and three Daphnia species were added to six Planktotrons. After 72 d, dissolved organic matter (DOM, an alkaline soil extract) was added as an external disturbance to six of the 12 Planktotrons, involving three Planktotrons stocked with Daphnia and three without, respectively. We demonstrate the suitability of the Planktotrons for food web and biodiversity research. Variation among replicated Planktotrons ( n = 3 minimum) did not differ from other laboratory systems and field experiments. We investigated population dynamics and interactions among the different trophic levels, and found them affected by the sequence of ciliate and Daphnia addition and the disturbance caused by addition of DOM. [ABSTRACT FROM AUTHOR]

Published

2017

171. Directed diversity manipulations within natural phytoplankton communities.

Author

Hammerstein, Sara K., Stockenreiter, Maria, and Stibor, Herwig

Subjects

PHYTOPLANKTON populations, PRIMARY productivity (Biology), FRESHWATER plankton, DILUTION, ENDANGERED species, BIODIVERSITY

Abstract

There is general concern about the rapid decline in biodiversity. The consequences of biodiversity declines are expected to impact ecosystem functioning. Primary production is one of the ecosystem-functions where existing data already support such expectations. However, for a mechanistic understanding of these processes more experimental investigations are needed. In terrestrial primary producer communities a directed removal of species is one important tool in the experimental portfolio to study the consequences of a decline in biodiversity. However, this is notoriously difficult in suspended aquatic primary producer communities consisting of mostly unicellular phytoplankton. As phytoplankton are responsible for about 50% of global primary production, detailed knowledge of whether and how diversity declines will impact the functioning of natural phytoplankton communities is of crucial importance. Here, we tested two different methods, dilution and disturbance-to manipulate diversity of natural freshwater plankton communities along an experimental gradient in a directed way. Dilution will alter community composition by affecting mainly rare species whereas disturbance will affect mainly stress sensitive species. Both methods resulted in distinct and replicable species richness gradients. Such gradients enable the mechanistic study of general responses to biodiversity loss in natural phytoplankton communities with shared evolutionary history in an ecological meaningful way. [ABSTRACT FROM AUTHOR]

Published

2017

172. Sequential rather than interactive effects of multiple stressors as drivers of phytoplankton community change in a large lake.

Author

Kelly, Noreen E., Young, Joelle D., Winter, Jennifer G., Palmer, Michelle E., Stainsby, Eleanor A., and Molot, Lewis A.

Subjects

PHYTOPLANKTON populations, LAKE ecology, EUTROPHICATION, CLIMATE change, BIOLOGICAL invasions, BYTHOTREPHES longimanus, ECOLOGICAL restoration monitoring

Abstract

Predicting how freshwater biota respond to multiple stressors is currently a major challenge facing aquatic ecologists and environmental managers. Lake Simcoe is an ideal location to test the impact of multiple stressors on aquatic biota over time, as changes in climate warming, species invasions, nutrient loading, and human population growth have occurred throughout the last three decades., In this study, we used a suite of multivariate analyses to quantify the unique and interactive effects of physico-climatic, water quality, and biological variables in explaining phytoplankton community composition from 1986 to 2012., Changes in water quality, zooplankton abundance and community composition (following the invasion of Bythotrephes longimanus), euphotic zone temperature and thermal stability, and the invasion of zebra mussels ( Dreissena polymorpha) acting at different times throughout the period of record, were associated with major shifts in the phytoplankton community of Lake Simcoe: dominance of eutrophic diatoms and cyanobacteria from 1986 to 1997 shifted to chlorophytes after 1998, then again to a diverse mix of taxa represented by all major categories of algae after 2004., Contrary to expectation, we found little evidence that interactions between multiple stressors are taking place in Lake Simcoe. Instead, our results demonstrated the sequential nature of multiple stressors in influencing interannual variation in phytoplankton community structure. By occurring consecutively over time, we propose a 'sequence of stressors' has influenced the ecological health of the lake over the preceding three decades., Considered by category, biological stressors, followed by water quality, then temperature and climate, explained the largest amount of total variance in the phytoplankton data. The prominence of zooplankton community changes as significant predictors of phytoplankton community change throughout the period of record suggests the top-down effect of these herbivores are also very important., Our results highlight the importance of extensive ecosystem monitoring in determining ecosystem health. Our approach may assist in the management of other aquatic systems, where identifying when multiple stressors are not operating may simplify the management process, allowing remediation efforts to focus on the most impactful stressors as primary targets for ecosystem restoration. [ABSTRACT FROM AUTHOR]

Published

2017

173. The cyanobacterium Gloeotrichia echinulata increases the stability and network complexity of phytoplankton communities.

Author

Carey, Cayelan C., Brown, Bryan L., and Cottingham, Kathryn L.

Subjects

CYANOBACTERIA biotechnology, PHYTOPLANKTON populations, DINOFLAGELLATES, PHYTOFLAGELLATES, LAKES

Abstract

Changes in the abundance of a taxon can have large effects on communities, particularly if that taxon is a strong interactor. These changes may arise as a consequence of environmental change, recruitment from dormant stages, or quirks of population dynamics, and have effects that ripple through a community interaction network. We hypothesized that cyanobacteria, which are increasing in many freshwater lakes globally, may be strong interactors because they can exert large and persistent effects on the biomass and composition of other phytoplankton. To test this hypothesis, we evaluated how the phytoplankton community responded to different densities of Gloeotrichia echinulata, a large colonial cyanobacterium increasingly observed in low-nutrient lakes in northeastern North America, in an in situ mesocosm experiment. We observed that many phytoplankton taxa, especially diatoms and green algae, responded primarily to increased nutrient availability (a result of Gloeotrichia's nitrogen fixation and translocation of phosphorus from the sediments), while a few taxa (two euglenophytes, one dinoflagellate, and one cyanobacterium) responded to both the direct and indirect effects of Gloeotrichia. Surprisingly, Gloeotrichia reduced the compositional variability of the phytoplankton community relative to the non-Gloeotrichia control treatment; there was no effect on the aggregate temporal variability of total non-Gloeotrichia biovolume. Moreover, experimentally increased densities of Gloeotrichia coincided with increasing complexity of the phytoplankton community in network analyses of taxon co-occurrences, as indicated by significantly greater network density and transitivity and shorter path lengths. Taken together, these findings suggest that Gloeotrichia may be a strongly interacting species in low-nutrient lakes, with the potential to increase the resilience of phytoplankton communities to future disturbance by increasing compositional stability and network complexity. [ABSTRACT FROM AUTHOR]

Published

2017

174. Nitrogen and phosphorus colimitation of phytoplankton in Lake Baikal: Insights from a spatial survey and nutrient enrichment experiments.

Author

O'Donnell, Daniel R., Wilburn, Paul, Silow, Eugene A., Yampolsky, Lev Y., and Litchman, Elena

Subjects

PHYTOPLANKTON populations, NUTRIENT pollution of water, NITROGEN in water, PHOSPHORUS in water

Abstract

Lake Baikal, Siberia, is the most biodiverse freshwater lake on Earth. However, despite decades of painstaking limnological research on Baikal, broad spatial data on nutrient (nitrogen (N), phosphorus (P), silica (Si)) concentrations and temperature are sparse, as is our understanding of the bottom-up factors that limit phytoplankton in the lake. Earlier studies have suggested both N and P as limiting nutrients in Baikal, but the evidence, mostly based on elemental ratios, is limited and somewhat conflicting. We present experimental evidence that N and P co-limit phytoplankton productivity in some areas of Baikal during summer, along with the results of a comprehensive spatial survey of surface temperature, nutrients and chlorophyll a (Chl a) in Lake Baikal that support the experimental finding of colimitation. Surface water incubations from two trophically contrasting locations revealed co-limitation by N and P, as well as a positive effect of temperature (fluorescence after 5 d was ∼10% higher at 15°C than at 10°C). In a linear model of the survey data (26 sampling locations), N, P, and their interaction (N × P) were all significant predictors of Chl a concentration, indicating that either N or P (or both) may limit summer phytoplankton, depending on location. In contrast to the incubation experiments, temperature was not a significant predictor of Chl a concentration across the 26 sites we sampled. Lake Baikal is undergoing rapid warming and increased nutrient loading, which may boost phytoplankton productivity in the lake; however, the magnitude of this response will depend on ratios of soluble N and P inputs. [ABSTRACT FROM AUTHOR]

Published

2017

175. Temperature- and size-scaling of phytoplankton population growth rates: Reconciling the Eppley curve and the metabolic theory of ecology.

Author

Kremer, Colin T., Thomas, Mridul K., and Litchman, Elena

Subjects

PHYTOPLANKTON populations, AQUATIC ecology, BIOGEOCHEMICAL cycles, FOOD chains, ECOSYSTEMS, MATHEMATICAL models

Abstract

Quantifying how environmental factors control the growth of phytoplankton communities is essential for building a mechanistic understanding of global biogeochemical cycles and aquatic food web dynamics. The strong effects of temperature on population growth rate have inspired two frameworks-the Eppley curve and the metabolic theory of ecology-that produce different quantitative relationships and employ distinct statistical approaches. Reconciling these relationships is necessary to ensure the accuracy of ecosystem models. In this paper, we develop ways to compare these frameworks, overcoming their methodological differences. Then, analyzing an extensive dataset (> 4200 growth rate measurements), we find that increases in population growth rate with temperature are consistent with metabolic theory, and weaker than previous estimates of the Eppley curve. A 10°C temperature increase will increase growth rates by a factor of 1.53, rather than 1.88 as in previous studies of the Eppley curve. Size and functional group membership are also critical. Population growth rates decrease with size, but much less strongly that metabolic theory predicts. The growth rates of different functional groups scale similarly with temperature, but some groups grow faster than others, independent of temperature. Our results reconcile the analytical methods of the Eppley curve and metabolic theory, demonstrate that metabolic theory's temperature-scaling predictions are more accurate, and provide new insights into the factors controlling phytoplankton growth. To avoid over-estimating the effects of temperature on primary productivity, the parameterization of ecosystem models should be revised. [ABSTRACT FROM AUTHOR]

Published

2017

176. A biomarker record of temperature and phytoplankton community structure in the Okinawa Trough since the last glacial maximum.

Author

Jiaping Ruan, Yunping Xu, Su Ding, Yinghui Wang, and Xinyu Zhang

Subjects

OCEAN temperature, PHYTOPLANKTON populations, TEMPERATURE measurements, GLACIAL melting, GLACIAL climates, OCEAN currents

Abstract

A variety of biomarkers were examined from Ocean Drilling Program Core 1202B to reconstruct temperature and phytoplankton community structures in the southern Okinawa Trough since 20 ka. Two molecular temperature proxies (U37K' and TEX86) show 5°C to ~6°C warming during the glacial-interglacial transition. Prior to the Holocene, The U37K' -derived temperature was generally 1°C to 4°C higher than TEX86-derived temperature. This difference, however, was reduced to <1°C in the Holocene. Correspondingly, the phytoplankton biomarkers (e.g., C37:2 alkenone, brassicasterol, C30 1,15 diol, and dinosterol) indicate a shift of planktonic community structures, with coccolithophorids becoming more abundant in the Holocene at the expense of diatoms/dinoflagellates. This shift is related to the variability of nutrients, temperature, and salinity in the Okinawa Trough, likely controlled by the sea level and the intensity of the Kuroshio Current. The phytoplankton community change may have had profound implications for atmospheric CO2 fluctuations during glacial-interglacial cycles since diatoms and dinoflagellates have a higher efficiency of the biological pump than coccolithophorids. [ABSTRACT FROM AUTHOR]

Published

2017

177. Biological production, export efficiency, and phytoplankton communities across 8000 km of the South Atlantic.

Author

Howard, E. M., Durkin, C. A., Hennon, G. M. M., Ribalet, F., and Stanley, R. H. R.

Subjects

BIOLOGICAL productivity, PHYTOPLANKTON populations, PRIMARY productivity (Biology), OXYGEN isotopes

Abstract

In situ oxygen tracers (triple oxygen isotope and oxygen/argon ratios) were used to evaluate meridional trends in surface biological production and export efficiency across ~8000 km of the tropical and subtropical South Atlantic in March-May 2013. We used observations of picophytoplankton, nanophytoplankton, and microphytoplankton to evaluate community structure and diversity and assessed the relationships of these characteristics with production, export efficiency, and particulate organic carbon (POC) fluxes. Rates of productivity were relatively uniform along most of the transect with net community production (NCP) between 0 and 10 mmol O2 m−2 d−1, gross primary production (GPP) between 40 and 100 mmol O2 m−2 d−1, and NCP/GPP, a measure of export efficiency, ranging from 0.1 to 0.2 (0.05-0.1 in carbon units). However, notable exceptions to this basin-scale homogeneity included two locations with highly enhanced NCP and export efficiency compared to surrounding regions. Export of POC and particulate nitrogen, derived from sediment traps, correlated with GPP across the transect, over which the surface community was dominated numerically by picophytoplankton. NCP, however, did not correlate with POC flux; the mean difference between NCP and POC flux was similar to published estimates of dissolved organic carbon export from the surface ocean. The interrelated rates of production presented in this work contribute to the understanding, building on the framework of better-studied ocean basins, of how carbon is biologically transported between the atmosphere and the deep ocean. [ABSTRACT FROM AUTHOR]

Published

2017

178. Salinity-driven decadal changes in phytoplankton community in the NW Arabian Gulf of Kuwait.

Author

Al-Said, Turki, Al-Ghunaim, Aws, Subba Rao, D.V., Al-Yamani, Faiza, Al-Rifaie, Kholood, and Al-Baz, Ali

Subjects

PHYTOPLANKTON populations, SALINITY & the environment, MEASUREMENT of salinity, MULTIVARIATE analysis, STREAM measurements

Abstract

Evaluation of hydrological data obtained between 2000 and 2013 from a time series station in Kuwait Bay (station K6) and an offshore southern location (station 18) off Kuwait showed drastic increase in salinity by 6 units. We tested the hypothesis that increased salinity impacted phytoplankton community characteristics in these semiarid waters. The Arabian Gulf receives seasonal freshwater discharge in the north via Shatt Al-Arab estuary with a peak during March-July. A north to south gradient in the proportion of the freshwater exists between station A in the vicinity of Shatt Al-Arab estuary and station 18 in the southern offshore area. At station A, the proportion of freshwater was the highest (25.6-42.5%) in 1997 but decreased to 0.8-4.6% by 2012-2013. The prevailing hyperhaline conditions off Kuwait are attributed to decrease in the river flow. Phytoplankton data showed a decrease in the number of constituent taxa in the last one decade from 353 to 159 in the Kuwait Bay and from 164 to 156 in the offshore area. A shift in their biomass was caused by a decrease in diatom species from 243 to 92 in the coastal waters and from 108 to 83 in the offshore areas with a concomitant increase of smaller algae. Mutivariate agglomerative hierarchical cluster analysis, non-metric multi-dimensional scaling, and one-way analysis of similarity analyses on phytoplankton data at different taxonomic levels confirmed significant changes in their community organization on a decadal scale. These evidences support our hypothesis that the salinity-related environmental changes have resulted in a coincidental decrease in species diversity and significant changes in phytoplankton community between the years 2000-2002 and 2012-2013, off Kuwait. This in turn would affect the pelagic trophodynamics as evident from a drastic decrease in the catch landings of Tenulosa ilisha (Suboor), Carangoides sp. (Hamam), Otolithes ruber (Nowaiby), Parastromateus niger (Halwaya), and Epinephelus coioides (Hamoor) in Kuwait. [ABSTRACT FROM AUTHOR]

Published

2017

179. RELATION BETWEEN DIVERSITY OF PHYTOPLANKTON AND ENVIRONMENTAL FACTORS IN WATERS AROUND NANRI ISLAND.

Author

YE, Y. Y., LUO, Y., WANG, Y., LIN, M., XIANG, P., and ASHRAF, M. A.

Subjects

MARINE phytoplankton, PHYTOPLANKTON populations, BIODIVERSITY, SALINITY & the environment, GEOGRAPHICAL distribution of phytoplankton

Abstract

Based on the investigation in waters around Nanri Island in spring and autumn of 2011, we analyzed spatial and temporal changes in species, abundance and diversity index of phytoplankton, and explored the relation between phytoplankton community structure and environment. The result showed that 106 species of phytoplankton, in 48 genera were identified, wherein diatom was the dominant species in abundance. Abundance in spring was significantly higher than that in autumn, ecological groups feature eurythermal and warm water species. Investigation showed that the heterogeneity of the marine environment of was high, and phytoplankton species diversity was low. Salinity and nutrients, as two major factors that influenced temporal and spatial variation of phytoplankton distribution abundance, were significantly correlated with phytoplankton abundance in spring. Compared to islands survey data during 1990-1991, dominant species were mainly few species, which succeed from domination of both dinoflagellate and diatom to domination of diatom. [ABSTRACT FROM AUTHOR]

Published

2017

180. Ocean acidification of a coastal Antarctic marine microbial community reveals a critical threshold for CO2 tolerance in phytoplankton productivity.

Author

Deppeler, Stacy, Petrou, Katherina, Schulz, Kai G., Westwood, Karen, Pearce, Imojen, McKinlay, John, and Davidson, Andrew

Subjects

OCEAN acidification, ANTARCTIC environmental conditions, MICROBIAL communities, PHYTOPLANKTON populations, MARINE species diversity, BIOTIC communities

Abstract

High-latitude oceans are anticipated to be some of the first regions affected by ocean acidification. Despite this, the effect of ocean acidification on natural communities of Antarctic marine microbes is still not well understood. In this study we exposed an early spring, coastal marine microbial community in Prydz Bay to CO2 levels ranging from ambient (343 μatm) to 1641 μatm in six 650 l minicosms. Productivity assays were performed to identify whether a CO2 threshold existed that led to a decline in primary productivity, bacterial productivity, and the accumulation of Chlorophyll a (Chl a) and particulate organic matter (POM) in the minicosms. In addition, photophysiological measurements were performed to identify possible mechanisms driving changes in the phytoplankton community. A critical threshold for tolerance to ocean acidification was identified in the phytoplankton community between 953 and 1140 μatm. CO2 levels ≥ 1140 μatm negatively affected photosynthetic performance and Chl a-normalised primary productivity (csPP14C), causing significant reductions in gross primary production (GPP14C), Chl a accumulation, nutrient uptake, and POM production. However, there was no effect of CO2 on C : N ratios. Over time, the phytoplankton community acclimated to high CO2 conditions, showing a down-regulation of carbon concentrating mechanisms (CCMs) and likely adjusting other intracellular processes. Bacterial abundance initially increased in CO2 treatments ≥ 953 μatm (days 3-5), yet gross bacterial production (GBP14C) remained unchanged and cell-specific bacterial productivity (csBP14C) was reduced. Towards the end of experiment, GBP14C and csBP14C markedly increased across all treatments regardless of CO2 availability. This coincided with increased organic matter availability (POC and PON) combined with improved efficiency of carbon uptake. Such changes in phytoplankton community production could have negative effects on the Antarctic food web and the biological pump, resulting in negative feedbacks on anthropogenic CO2 uptake. Increases in bacterial abundance under high CO2 conditions may also increase the efficiency of the microbial loop, resulting in increased organic matter remineralisation and further declines in carbon sequestration. [ABSTRACT FROM AUTHOR]

Published

2017

181. Phytoplankton stoichiometry reflects the variation in nutrient concentrations and ratios in a nitrogen-enriched coastal lagoon.

Author

Sutcu, Ayse and Kocum, Esra

Subjects

PHYTOPLANKTON populations, ORGANIC compounds, CARBON compounds, EUTROPHICATION control, NITRATE minerals

Abstract

Human impacts on carbon, nitrogen and phosphorus cycles have differentially increased the flux of C, N and P to the coastal zone creating an altered environment with respect to nutrient stoichiometry for production and transfer of organic matter. Such changes can be more pronounced in closed and semi-enclosed ecosystems. The spatio-temporal variability in chl a, phytoplankton C, N and P content and stoichiometry were measured along with nutrients to reveal relations between them in a coastal lagoon. High nitrate concentrations and low availability of phosphate produced skewed nutrient stoichiometry that reflected itself in the large deviations of PC:PN and PN:PP from their corresponding Redfield ratios while the dynamic nature of fluctuations in nutrient concentrations led to wide variations in phytoplankton C, N and P content and in their ratios. The findings of the study provide insights into the possible alterations in phytoplankton stoichiometry in similar ecosystems receiving high inputs which is not balanced with phosphorus and/or where P-reduction is the mode of eutrophication control as both can produce skewed nutrient stoichiometry. [ABSTRACT FROM PUBLISHER]

Published

2017

182. Application of taxonomic and morpho-functional properties of phytoplankton communities to water quality assessment for artificial lakes in the Mediterranean Ecoregion.

Author

Vadrucci, M. R., Barbone, E., Ungaro, N., Romano, A., and Bucci, R.

Subjects

PHYTOPLANKTON populations, WATER quality biological assessment, FRESHWATER biology, BIOTIC communities

Abstract

Starting in September 2010, a monitoring program was developed for evaluating the water quality in six artificial lakes (reservoirs) of the Apulia Region (Southern Italy). Lake ecological status was evaluated according to the requirements of the 2000/60/EC Water Framework Directive. Phytoplankton taxonomic composition, biovolume and chlorophyll a data were used in an application of the Italian methods (Italian Phytoplankton Assessment Method or New Italian Method) for water quality assessment of artificial lakes. Even though all the reservoirs were classified as being in good ecological status, the phytoplankton communities of the six reservoirs were different and characterized by highly site-specific components and by distinctive dominant taxa. The influences of environmental variables on the phytoplankton communities were analyzed. Results of Constrained Coordinate Analysis (CCA) indicated strong influences of the trophic gradient and water depth on the phytoplankton assemblages, but significant factors are also the surrounding landscape and the origin and the history of the lakes. A functional traits-based analysis was carried out to support the water quality assessment tools. Twenty-one morpho-functional groups were identified. Most of them were common in all six lakes, so functional properties clearly recur among different phytoplankton species. [ABSTRACT FROM AUTHOR]

Published

2017

183. Phytoplankton diversity along spatial and temporal gradients in the Florida Keys.

Author

Stanca, Elena and Parsons, Michael L.

Subjects

PHYTOPLANKTON populations, CYANOBACTERIA ecology, DIATOMS, DINOFLAGELLATES

Abstract

Environmental mechanisms that drive changes in phytoplankton community structure remain a remarkably understudied topic in phytoplankton ecology. For this study, two seasons and four sampling sites in the Florida Keys (FK) were selected for phytoplankton analyses to test if environmental constraints select for driving taxonomic diversity. One hundred and twenty-six taxa belonging to 10 classes and 6 phyla were identified, where significant differences in taxonomic composition and biovolume characterized the FK on spatial and temporal scales, with Bacillariophyta being the most representative phylum. A small number of taxa were limited to specific sites or seasons, whereas the majority were present at all sites and in both seasons, albeit in different densities. Canonical correspondence analysis results demonstrated that taxa are distributed along seasonal and spatial gradients defined by temperature, light and waves. The resultant variability in species composition indicates that the phytoplankton community structure is related to changing hydrodynamic conditions, temperature and light availability, which define the temporal and spatial filters for the most important phytoplankton functional groups observed in this study. [ABSTRACT FROM AUTHOR]

Published

2017

184. Individual trait variation in phytoplankton communities across multiple spatial scales.

Author

Leonilde, Roselli, Elena, Litchman, Elena, Stanca, Francesco, Cozzoli, and Alberto, Basset

Subjects

PHYTOPLANKTON populations, BIODIVERSITY, TAXONOMY, SPATIAL ecology, CELL size, CELL morphology, RESOURCE availability (Ecology)

Abstract

In the context of maintenance of biodiversity and ecological functions, microbial ecologists face the challenge of linking individual level variability in functional traits to larger scale ecosystem processes. Phytoplankton cell size and shape are key traits under selection by environmental filters and species interactions. Spatial differences in resource availability shape species diversity according to their use efficiency. Niche partitioning promotes plankton diversity. Here, we explore how size and shape enter the diversity game. How does taxonomic and morpho-functional community structure vary at different spatial scales? What are the potential drivers shaping the structure of phytoplankton communities? We explore these questions by looking at the individual level variability in taxonomic and morphological traits in a biogeographical snapshot of natural phytoplankton communities in coastal ecosystems around the globe. We found that taxonomic variability is mainly concentrated at local and regional levels, whereas shape and size variability are mainly concentrated at a local level, despite the environmental heterogeneity of ecosystems. Species diversity was more variable than trait diversity from local to global spatial scales. We suggest that structural organization of phytoplankton communities in coastal ecosystems may follow a hierarchical pattern of trait organization, where a different combination of multiple functional traits may represent effective strategies and promote success under given environmental conditions as a resolution of Hutchinson's paradox. [ABSTRACT FROM AUTHOR]

Published

2017

185. The effects of different environmental factors on the biochemical composition of particulate organic matter in Gwangyang Bay, South Korea.

Author

Jang Han Lee, Dabin Lee, Jae Joong Kang, Hui Tae Joo, Jae Hyung Lee, Ho Won Lee, So Hyun Ahn, Chang Keun Kang, and Sang Heon Lee

Subjects

ORGANIC compounds & the environment, FOOD quality, PHYTOPLANKTON populations, ECOLOGICAL disturbances

Abstract

The biochemical composition of particulate organic matter (POM) produced through phytoplankton photosynthesis is important in determining food quality for planktonic consumers as well as the physiological conditions of phytoplankton. Major environmental factors controlling the biochemical composition were seasonally investigated in Gwangyang Bay, South Korea, which has only natural conditions (e.g., no artificial dams). Water samples for the biochemical compositions were obtained from three different light depths (100, 30, and 1 %) mainly at three sites in Gwangyang Bay from April 2012 to April 2013. Different biochemical classes (carbohydrates, CHO; proteins, PRT; and lipids, LIP) were extracted, and then the concentrations were determined by the optical density measured with a spectrophotometer. The highest and lowest PRT compositions among the three biochemical classes were found in April 2012 (58.0 %) and August 2012 (21.2 %), whereas the highest and lowest LIP compositions were found in August 2012 (49.0 %) and April 2012 (24.8 %), respectively. The CHO composition was recorded as high in January 2013 and remained above 25% during the study period. The calorific contents of the food material (FM) ranged from 1.0 to 6.1 Kcalm-3 (annual average ±SD = ±1.1 Kcal m-3). Based on a Pearson's correlation coefficient analysis, a major governing factor in the biochemical composition of POM was dissolved inorganic nitrogen loading from the river input in Gwangyang Bay. In conclusion, a relatively larger amount of FM and the higher calorific contents of POM found in this study compared to other regions reflected good nutritive conditions for sustaining productive shellfish and fish populations in Gwangyang Bay. Continuous observations are needed to monitor the marine ecosystem response to potential environmental perturbations in Gwangyang Bay. [ABSTRACT FROM AUTHOR]

Published

2017

186. CITRATE 1.0: Phytoplankton continuous trait-distribution model with one-dimensional physical transport applied to the Northwest Pacific.

Author

Bingzhang Chen and Smith, S. Lan

Subjects

MARINE phytoplankton, PLANKTON diversity, MARINE biomass, ANIMAL variation, MONTE Carlo method, PHYTOPLANKTON populations, BODY size, MARINE ecology, MATHEMATICAL models, INVERTEBRATES

Abstract

Diversity plays critical roles in ecosystem functioning, but it remains unclear how best to model phytoplankton diversity in order to better understand those roles and reproduce consistently observed patterns in the ocean. In contrast to the typical approach of resolving distinct species or functional groups, we present a ContInuous TRAiT-basEd phytoplankton model (CITRATE) that focuses on macroscopic properties such as total biomass, mean trait values, and trait variance. This phytoplankton component is embedded within a Nitrogen-Phytoplankton-Zooplankton-Detritus-Iron model that itself is coupled with a simplified one-dimensional ocean model. Size is used as the master trait for phytoplankton. CITRATE also incorporates "trait diffusion" for sustaining diversity, as well as simple representations of physiological acclimation, i.e. flexible chlorophyll-to-carbon and nitrogen-to-carbon ratios. We implemented CITRATE 1.0 at two contrasting stations in the Northwest Pacific where several years of observational data are available. The model is driven by physics forcing including vertical eddy diffusivity imported from three-dimensional ocean circulation models. One common set of model parameters for the two stations was optimized using the Delayed Rejection Adaptive Metropolis-Hasting Monte Carlo (DRAM) algorithm. The model faithfully reproduced most of the observational patterns and gave robust predictions on phytoplankton mean size and size diversity. With proper physical forcing, CITRATE 1.0 can be applied to any oceanic station where either nitrogen or iron limits phytoplankton growth. [ABSTRACT FROM AUTHOR]

Published

2017

187. Ecosystem flux and biotic modification as drivers of metaecosystem dynamics.

Author

Limberger, Romana, Birtel, Julia, Farias, Daniel d. S., and Matthews, Blake

Subjects

ORGANIC compounds, PHYTOPLANKTON populations, FLUX (Energy), SPECIES diversity, ZOOPLANKTON

Abstract

The fluxes of energy, matter, and organisms are important structuring forces of metaecosystems. Such ecosystem fluxes likely interact with environmental heterogeneity and differentially affect the diversity of multiple communities. In an aquatic mesocosm experiment, we tested how ecosystem flux and patch heterogeneity affected the diversity of bacteria, phytoplankton, and zooplankton metacommunities, and the structure and functioning of metaecosystems. We built metaecosystems consisting of three mesocosms that were either connected by flux of living organisms, organic material, and nutrients (alive ecosystem flux) or only by flux of organic material and nutrients (dead ecosystem flux). The three patches of each metaecosystem were either homogeneous or heterogeneous in nutrient loading. We found that the three groups of organisms responded differently to our treatments: flux of living organisms increased bacterial diversity irrespective of nutrient heterogeneity, while flux effects on phytoplankton diversity depended on nutrient heterogeneity, potentially indicating source-sink effects. Although zooplankton diversity was largely unaffected by our manipulations, subtle changes of community composition in response to ecosystem flux had strong effects on lower trophic levels, highlighting the importance of indirect flux effects via alterations in trophic interactions. Furthermore, differential effects of communities on the mean and spatial variability of local abiotic environments influenced the development of metaecosystem heterogeneity through time. Despite identical nutrient loading at the scale of the metaecosystem, abiotic conditions diverged between homogeneous and heterogeneous metaecosystems. For example, concentrations in dissolved organic carbon ( DOC) were higher in homogeneous than heterogeneous metaecosystems, possibly because of differential responses of the algal community to local environmental conditions. Similarly, we found that flux effects on organisms translated into effects on DOC concentrations at the patch level, suggesting that flux-mediated changes in abundances of species can alter abiotic conditions. Our study shows that the dynamics of biotic and abiotic compartments of spatially structured ecosystems are intricately linked, highlighting the importance of integrating metacommunity and metaecosystem perspectives. [ABSTRACT FROM AUTHOR]

Published

2017

188. A biosynthesis view on nutrient stress in coastal phytoplankton.

Author

Grosse, Julia, van Breugel, Peter, Brussaard, Corina P. D., and Boschker, Henricus T. S.

Subjects

PHYTOPLANKTON populations, BIOMOLECULE analysis, BIOSYNTHESIS, AMINO acid analysis, COASTAL zone management

Abstract

Anthropogenic activities resulted in major shifts in nutrient inputs to coastal seas, which may have altered the biomolecule composition of phytoplankton because of different C : N : P requirements for biosynthesis. In order to understand the effects of N- and P-limitation on the allocation of photosynthetically fixed C, we directly measured seasonal and spatial dynamics of amino acid, fatty acid and carbohydrate concentrations and biosynthesis rates in the phytoplankton of the North Sea using a novel 13C-tracer approach. Nutrient limitation and season had large effects on composition and biosynthesis rates of all biochemical classes, for instance the contribution of protein derived amino acids varied up to fourfold in concentration and up to eightfold in biosynthesis rates. Nutrient specific effects and the prevailing nutrient limitations were identified by short-term (24-72 h) nutrient addition experiments. Addition of the growth-limiting nutrient increased amino acid synthesis while storage compound synthesis decreased concurrently. The strongest effect was detected in N-limited flagellates, where amino acid synthesis increased up to fivefold within 24 h upon relief of nutrient limitation. P-limitation was only detected in diatom-dominated near-coast stations, and amino acid synthesis responded much slower, likely because of the necessary preceding synthesis of ribosomes. This metabolic elasticity of phytoplankton in response to nutrient availability will have major consequences for their nutritional value within the food web and subsequently the carrying capacity of coastal ecosystems. [ABSTRACT FROM AUTHOR]

Published

2017

189. Distribution of phytoplankton groups within the deep chlorophyll maximum.

Author

Latasa, Mikel, Cabello, Ana María, Morán, Xosé Anxelu G., Massana, Ramon, and Scharek, Renate

Subjects

PHYTOPLANKTON populations, CHLOROPHYLL spectra, CHLOROPHYLL analysis, PROCHLOROCOCCUS, CELL analysis

Abstract

The fine vertical distribution of phytoplankton groups within the deep chlorophyll maximum (DCM) was studied in the NE Atlantic during summer stratification. A simple but unconventional sampling strategy allowed examining the vertical structure with ca. 2 m resolution. The distribution of Prochlorococcus, Synechococcus, chlorophytes, pelagophytes, small prymnesiophytes, coccolithophores, diatoms, and dinoflagellates was investigated with a combination of pigment-markers, flow cytometry and optical and FISH microscopy. All groups presented minimum abundances at the surface and a maximum in the DCM layer. The cell distribution was not vertically symmetrical around the DCM peak and cells tended to accumulate in the upper part of the DCM layer. The more symmetrical distribution of chlorophyll than cells around the DCM peak was due to the increase of pigment per cell with depth. We found a vertical alignment of phytoplankton groups within the DCM layer indicating preferences for different ecological niches in a layer with strong gradients of light and nutrients. Prochlorococcus occupied the shallowest and diatoms the deepest layers. Dinoflagellates, Synechococcus and small prymnesiophytes preferred shallow DCM layers, and coccolithophores, chlorophytes and pelagophytes showed a preference for deep layers. Cell size within groups changed with depth in a pattern related to their mean size: the cell volume of the smallest group increased the most with depth while the cell volume of the largest group decreased the most. The vertical alignment of phytoplankton groups confirms that the DCM is not a homogeneous entity and indicates groups' preferences for different ecological niches within this layer. [ABSTRACT FROM AUTHOR]

Published

2017

190. Amazon River influence on nitrogen fixation and export production in the western tropical North Atlantic.

Author

Weber, Sarah C., Carpenter, Edward J., Coles, Victoria J., Yager, Patricia L., Goes, Joaquim, and Montoya, Joseph P.

Subjects

NITROGEN fixation, ORGANIC compounds, PHYTOPLANKTON populations, NITROGEN analysis, MEASUREMENT of salinity

Abstract

As part of the ANACONDAS program, we investigated the role of the Amazon plume in stimulating offshore nitrogen fixation and export production during the river's high-discharge period (May-June 2010). Using the shipboard underway system, we performed high-resolution sampling of over 450,000 km2 of surface waters, characterizing the distribution of nutrients, phytoplankton, particulate organic matter (POM), and stable carbon and nitrogen isotopes of POM in the offshore plume. We found distinct regional variations in diazotroph communities, with the Diatom-Diazotroph Associations (DDA) Hemiaulus hauckii - Richelia intracellularis dominating the low N : P mesohaline waters to the northwest of the plume axis and Trichodesmium spp. primarily occupying oceanic waters to the east. Nutrient availability broadly shaped diazotroph distributions along the salinity gradient, but habitat longevity may also play a role in the finer-scale distributions of communities, particularly of DDAs. H. hauckii and Trichodesmium spp. affected the nitrogen and carbon budgets in fundamentally different ways within the plume-influenced regions, with H. hauckii making much greater contributions to the particulate nitrogen pool and to CO2 drawdown than Trichodesmium spp., leading to much higher export fluxes. Our findings provide an important constraint on the role of the Amazon plume in creating distinct niches and roles for diazotrophs in the nutrient and carbon budgets of the western tropical North Atlantic. [ABSTRACT FROM AUTHOR]

Published

2017

191. Mixotrophy in Heterocapsa rotundata: A mechanism for dominating the winter phytoplankton.

Author

Millette, N. C., Pierson, J. J., Aceves, A., and Stoecker, D. K.

Subjects

DINOFLAGELLATES, ALGAL blooms, PHYTOPLANKTON populations, INGESTION, WINTER

Abstract

Heterocapsa rotundata is a mixotrophic dinoflagellate that can ingest picoplankton, including bacteria, and is known to form large blooms in temperate estuaries during wet winters, particularly when grazing pressure on phytoplankton is low. We hypothesized that phagotrophy gives H. rotundata an advantage over other phytoplankton species during low light conditions. We used laboratory and field experiments to investigate changes in phagotrophy by H. rotundata in response to changes in light availability. Prey removal experiments with a non-axenic culture of H. rotundata were used to determine changes in H. rotundata's ingestion rates in response to changes in irradiance. Fluorescent microspheres were used to measure in situ ingestion rates of H. rotundata collected on 20 different occasions from the Choptank River during the winter of 2016. In situ H. rotundata ingestion rates were tested for correlation with inorganic nutrient concentrations and irradiance levels. Ingestion rates measured with cultured and in situ H. rotundata followed similar patterns and ingestion rates increased as irradiance decreased. H. rotundata has the potential to obtain nutrients from multiple nutrient sources, switching from phototrophy to partial heterotrophy as irradiance decreases. This response may allow H. rotundata to survive and to potentially form blooms when growth rates of most other estuarine phytoplankton species is low. [ABSTRACT FROM AUTHOR]

Published

2017

192. Does turbidity induced by Carassius carassius limit phytoplankton growth? A mesocosm study.

Author

He, Hu, Hu, En, Yu, Jinlei, Luo, Xuguang, Li, Kuanyi, Jeppesen, Erik, and Liu, Zhengwen

Subjects

TURBIDITY, CRUCIAN carp, ALGAL blooms, PHYTOPLANKTON populations, SUSPENDED solids, LAKES

Abstract

It is well established that benthivorous fish in shallow lakes can create turbid conditions that influence phytoplankton growth both positively, as a result of elevated nutrient concentration in the water column, and negatively, due to increased attenuation of light. The net effect depends upon the degree of turbidity induced by the benthivores. Stocked Carassius carassius dominate the benthivorous fish fauna in many nutrient-rich Chinese subtropical and tropical shallow lakes, but the role of the species as a potential limiting factor in phytoplankton growth is ambiguous. Clarification of this relationship will help determine the management strategy and cost of restoring eutrophic lakes in China and elsewhere. Our outdoor mesocosm experiment simulating the effect of high density of crucian carp on phytoplankton growth and community structure in eutrophic shallow lakes suggests that stocking with this species causes resuspension of sediment, thereby increasing light attenuation and elevating nutrient concentrations. However, the effect of light attenuation was insufficient to offset the impact of nutrient enhancement on phytoplankton growth, and significant increases in both phytoplankton biomass and chlorophyll a concentrations were recorded. Crucian carp stocking favored the dominance of diatoms and led to lower percentages (but not biomass) of buoyant cyanobacteria. The dominance of diatoms may be attributed to a competitive advantage of algal cells with high sedimentation velocity in an environment subjected to frequent crucian carp-induced resuspension and entrainment of benthic algae caused by the fish foraging activities. Our study demonstrates that turbidity induced by stocked crucian carp does not limit phytoplankton growth in eutrophic waters. Thus, removal of this species (and presumably other similar taxa) from subtropical or tropical shallow lakes, or suspension of aquaculture, is unlikely to boost phytoplankton growth, despite the resulting improvements in light availability. [ABSTRACT FROM AUTHOR]

Published

2017

193. Interspecific Competition Study Between Pseudochattonella farcimen and P. verruculosa (Dictyochophyceae)-Two Ichthyotoxic Species that Co-occur in Scandinavian Waters.

Author

Eckford-Soper, Lisa and Daugbjerg, Niels

Subjects

COMPETITION (Biology), PHYTOPLANKTON populations, FISH kills, POLYMERASE chain reaction, MICROBIOLOGY

Abstract

The genus Pseudochattonella has become a frequent component of late winter-early spring phytoplankton community in Scandinavian waters, causing extensive fish kills and substantial economic losses. One of currently two recognised species, P. farcimen, is often abundant prior to the diatom spring bloom. Recent field studies have revealed that P. farcimen and P. verruculosa have a period of overlap in their temperature ranges and thus their seasonal occurrences. Using laboratory cultures, we investigated the seasonal succession and growth of P. farcimen and P. verruculosa in both mono- and mixed-culture using the recently developed Pseudochattonella 'qPCR subtraction method', which for the first time allowed the simultaneous enumeration of these morphologically indistinguishable species in mixed assemblages. We examined how these species interacted over four different temperatures (5, 8, 11 and 15 °C). The observed growth rates and cell yields varied with temperature revealing their preferred temperature optima. P. farcimen was able to achieve positive net growth over all temperatures, while P. verruculosa failed to grow below 11 °C. Growth responses were statistically different between mono- and mixed-cultures with the outcome of these interactions being temperature-dependent. Nutrients (nitrate and phosphate) and pH levels were also measured throughout the growth experiments to better understand how these factors influenced growth of both species. P. verruculosa was shown to be less sensitive to high pH as growth ceased at pH 9.1, whereas P. farcimen stopped growing at pH 8.4. Understanding the influence of abiotic factors (e.g. temperature, pH and competition) on growth rates allows for a better understanding and prediction of phytoplankton community dynamics. [ABSTRACT FROM AUTHOR]

Published

2017

194. The structure of phytoplankton communities in the eastern part of the Laptev Sea.

Author

Sukhanova, I., Flint, M., Georgieva, E., Lange, E., Kravchishina, M., Demidov, A., Nedospasov, A., and Polukhin, A.

Subjects

PHYTOPLANKTON populations, DINOFLAGELLATE cysts, DIATOMS, RHIZOSOLENIA

Abstract

Studies have been performed on a transect along 130°30′ E from the Lena River delta (71°60′ N) to the continental slope and adjacent deepwater area (78°22′ N) of the Laptev Sea in September 2015. The structure of phytoplankton communities has distinct latitudinal zoning. The southern part of the shelf (southward of 73°10′ N), the most desalinated by riverine discharge, houses a phytoplankton community with a biomass of 175-840 mg/m, domination of freshwater Aulacoseira diatoms, and significant contribution of green algae (both in abundance and biomass). The northern border for the distribution range of the southern complex of phytoplankton species lies between the 8 and 18 psu isohalines (~73°10′ N). The continental slope and deepwater areas of the Laptev Sea (north of 77°30′ N), with a salinity of >27 psu in the upper mixed layer, are populated by the community prevalently composed of Chaetoceros and Rhizosolenia diatoms, very abundant in the Arctic, and dinoflagellates. The phytoplankton number in this area fall in the range of 430-1100 × 10 cell/m, and the biomass, in the range of 3600 mg/m. A moderate desalinating impact of the Lena River discharge is observed in the outer shelf area between 73°20′ and 77°30′ N; the salinity in the upper mixed layer is 18-24 psu. The phytocenosis in this area has a mosaic spatial structure with between-station variation in the shares of different alga groups in the community, cell number of 117-1200 × 10 cells/m, and a biomass of 1600-3600 mg/m. As is shown, local inflow of 'fresh' nutrients to the euphotic layer in the fall season leads to mass growth of diatoms. [ABSTRACT FROM AUTHOR]

Published

2017

195. Sedimentary carbon forms in relation to climate and phytoplankton biomass in a large, shallow, hard-water boreal lake.

Author

Ehapalu, Kristiina, Tõnno, Ilmar, Reitalu, Triin, Alliksaar, Tiiu, Liiv, Merlin, Freiberg, Rene, and Nõges, Peeter

Subjects

CARBON sequestration, CLIMATOLOGY, PHYTOPLANKTON populations, AQUATIC habitats, CARBON cycle, GREENHOUSE gases & the environment

Abstract

Carbon storage in lakes can have huge implications for the global carbon cycle, as lakes annually accumulate up to one half the amount of organic carbon buried in marine sediments. Yet little is known of the effect of recent climate change on carbon storage in lakes. We analyzed century-scale time series of climate variables (precipitation, temperature, NAO winter index) and profiles of sediment characteristics in a dated sediment core from shallow, eutrophic Lake Võrtsjärv, south Estonia. We used path analysis to evaluate the effect of climate conditions on phytoplankton biomass in the lake and accumulation of organic and inorganic carbon in the sediment. Changes in winter and spring climate influenced the lake's phytoplankton growth significantly. Carbon pathways in hard-water Lake Võrtsjärv were influenced by both hydrological (most significant in colder periods) and biogeochemical processes. Increased nutrient and water input to Lake Võrtsjärv, anticipated with projected climate warming, favours greater in-lake productivity, larger accumulation of inorganic carbon in sediments, and an increase in organic carbon mineralisation, which fuels atmospheric greenhouse gas emissions from the lake. [ABSTRACT FROM AUTHOR]

Published

2017

196. Interannual variability in phytoplankton biomass and species composition in northern Marguerite Bay (West Antarctic Peninsula) is governed by both winter sea ice cover and summer stratification.

Author

Rozema, P. D., Venables, H. J., Poll, W. H., Clarke, A., Meredith, M. P., and Buma, A. G. J.

Subjects

PHYTOPLANKTON populations, GLACIAL melting, SEA ice thawing, CRYPTOMONADS, CHLOROPHYLL, CHLOROPLAST pigments

Abstract

The rapid warming of the West Antarctic Peninsula region has led to reduced sea ice cover and enhanced glacial melt water input. This has potential implications for marine ecosystems, notably phytoplankton growth, biomass, and composition. Fifteen years (1997-2012) of year-round size fractionated chlorophyll a (Chl a), phytoplankton pigment fingerprinting and environmental data were analyzed to identify the relationship between sea ice cover, water column stability and phytoplankton dynamics in northern Marguerite Bay, Antarctica. Over the investigated period, both summer (December-February) and winter biomass declined significantly, 38.5% and 33.3% respectively. Winter phytoplankton biomass was low (< 0.25 μg Chl a L−1) and consisted on average of 69% diatoms, 5% cryptophytes, and 20% haptophytes. Summers following winters with low (< 65 days) sea ice cover were characterized by decreased stratification strength and relatively low (median < 4.4 μg Chl a L−1) phytoplankton biomass, as compared to summers preceded by high winter sea ice cover. In addition, the summertime microphytoplankton (> 20 μm) fraction was strongly decreased in the low biomass years, from 92% to 39%, coinciding with a smaller diatom fraction in favor of nanophytoplankton (< 20 μm), represented by cryptophytes and haptophytes. In contrast, diatoms dominated (> 95%) during summers with average-to-high biomass. We advance a conceptual model whereby low winter sea ice cover leads to low phytoplankton biomass and enhanced proportions of nanophytoplankton, when this coincides with reduced stratification during summer. These changes are likely to have a strong effect on the entire Antarctic marine food web, including krill biomass, and distribution. [ABSTRACT FROM AUTHOR]

Published

2017

197. Comparison of ecosystem processes in a woodland and prairie pond with different hydroperiods.

Author

Hornbach, Daniel J., Hove, Mark C., Ensley-Field, Mira W., Glasenapp, Matthew R., Goodbar, Ian A., Harman, J. Douglas, Huber, Benjamin D., Kangas, Emily A., Liu, Kira X., Stark-Ragsdale, Molly, and Tran, Long K.

Subjects

ECOSYSTEM management, CARBON cycle, CLIMATE change, PHYTOPLANKTON populations

Abstract

Shallow lakes and ponds constitute a significant number of water bodies worldwide. Many are heterotrophic, indicating that they are likely net contributors to global carbon cycling. Climate change is likely to have important impacts on these waterbodies. In this study, we examined two small Minnesota ponds; a permanent woodland pond and a temporary prairie pond. The woodland pond had lower levels of phosphorus and phytoplankton than the prairie pond. Using the open water oxygen method, we found the prairie pond typically had a higher level of gross primary production (GPP) and respiration (R) than the woodland pond, although the differences between the ponds varied with season. Despite the differences in GPP and R between the ponds the net ecosystem production was similar with both being heterotrophic. Since abundant small ponds may play an important role in carbon cycling and are likely to undergo changes in temperature and hydroperiod associated with climate change, understanding pond metabolism is critical in predicting impacts and designing management schemes to mitigate changes. [ABSTRACT FROM AUTHOR]

Published

2017

198. Identifying and quantifying environmental thresholds for ecological shifts in a large semi-regulated river.

Author

Giblin, Shawn M.

Subjects

ECOLOGICAL regime shifts, MACROPHYTES, PHYTOPLANKTON populations, FISHERY monitoring, WATER quality management

Abstract

Ecological shifts, between a clear macrophyte-dominated state and a turbid state dominated by phytoplankton and high inorganic suspended solids, have been well described in shallow lake ecosystems. While few documented examples exist in rivers, models predict regime shifts, especially in regulated rivers with high water retention time. Here I quantified ecological shifts in a large, semi-regulated floodplain river during a transition from a turbid- to a clear-water state using water quality, aquatic vegetation and fisheries data from a rigorous, standardized long-term data set. My findings indicate that significant changes occurred in total suspended solids concentration, aquatic macrophyte abundance, native and non-native fish biomass, fish functional feeding guild patterns, fish habitat guild assemblages and fish spawning guild assemblage patterns over a nearly 20-year period in Navigation Pool 8 of the Upper Mississippi River. Transitions in physical and biological indicators were examined to identify mechanisms underlying the ecological shifts. Environmental variables driving fish assemblage changes were identified (total suspended solids and aquatic vegetation) and management-relevant thresholds are presented. Awareness of management thresholds is critical for resource managers to implement measures to prevent the river from moving to a degraded state characterized by high non-native fish abundance and low predatory fish species abundance. [ABSTRACT FROM AUTHOR]

Published

2017

199. Characterization of ultraphytoplankton pigments and functional community structure in Xiangxi Bay, China, using HPLC-CHEMTAX.

Author

Liu, Xi-Xia, Li, Jia-Yuan, Bi, Yong-Hong, Hou, Jian-Jun, Li, Yun-Tao, and He, Yun-Yan

Subjects

PHYTOPLANKTON populations, PHOTOSYNTHETIC pigments, HIGH performance liquid chromatography, CHLOROPHYLL, ALGAL blooms

Abstract

To characterize the ultraphytoplankton community structure and understand its succession, we investigated photosynthetic pigment concentration and composition; algae phyla composition and abundance; and environmental factors in Xiangxi Bay (XXB) from February to December 2013. High-performance liquid chromatography (HPLC) analyses revealed eight diagnostic pigments: Fucoxanthin, Neoxanthin, Violaxanthin, Alloxanthin, Lutein, Zeaxanthin, Chlorophyll b and Chlorophyll a. The temporal differences between seven of the pigments (all excepting Neoxanthin) were significant (P< 0.05), and there were no significant spatial differences between the eight pigments (P> 0.05). A chemical taxonomy (CHEMTAX) calculation identified seven phyla of ultraphytoplankton: cryptophytes, chlorophytes, cyanobacteria, diatoms, euglenophytes, chrysophytes, and dinoflagellates. The temporal differences between five of the phyla (except chlorophytes and euglenophytes) were significant (P< 0.05), and there was no significant spatial difference between the seven phyla (P> 0.05). The redundancy analyses demonstrated that the key environmental factors for the succession were N-NH4+and P-PO43–. Application of the HPLC-CHEMTAX method has provided the first analysis of ultraphytoplankton community structure in XXB, and our findings also show that environmental factors influence the succession of ultraphytoplankton over time. [ABSTRACT FROM PUBLISHER]

Published

2017

200. Seasonal variability of phytoplankton community response to thermal discharge from nuclear power plant in temperate coastal area.

Author

Zhang, Jingjing, Wang, Yibin, Ottmann, Daniel, Cao, Peng, Yang, Jisong, Yu, Junbao, and Lv, Zhenbo

Subjects

WASTE heat, PHYTOPLANKTON populations, PHYTOPLANKTON, COASTAL plants, SKELETONEMA costatum, GEOTHERMAL ecology, NUCLEAR power plants

Abstract

Nuclear power plants (NPPs) developed rapidly worldwide in the last half-century and have become one of the most important electric power sources. Thermal discharge from NPPs increases the temperature of receiving waters, directly and indirectly affecting phytoplankton community. Seasonal and interannual variation in environmental factors in temperate areas makes it challenging to determine the effects of thermal effluents from NPPs on coastal phytoplankton. Here, a five-year study was performed around a NPP in the western Yellow Sea to determine how thermal effluents affect phytoplankton community during different seasons. A total of 106 phytoplankton species from 7 phyla were identified in 10 biological sites during the 19 cruises, among which diatoms dominated phytoplankton abundance in all seasons. Our results show that increased seawater temperature caused by thermal effluents (1) was not enough to cause a statistically significant effect on phytoplankton abundance composition from autumn through spring, (2) significantly stimulated phytoplankton population growth and changed phytoplankton composition in summer (3) increased the proportion of diatoms and decreased the proportion of dinoflagellate in summer, and (4) increased the abundance and dominance of Skeletonema costatum sensu lato, especially in summer. The findings of this study provide essential information on the ecological impact of thermal effluents from NPPs in temperate coastal areas. [Display omitted] • Thermal effects on phytoplankton varied greatly between seasons. • Thermal discharge significantly promoted phytoplankton growth in summer. • Thermal discharge has no significant effect on phytoplankton community from autumn to spring. • Thermal discharge reshaped phytoplankton community structure in summer. • Release of thermal effluent was closely related to dominant species succession. [ABSTRACT FROM AUTHOR]

Published

2023