Your search keyword '"Hessen, Dag Olav"' showing total 13 results

1. Phytoplankton biomass in northern lakes reveals a complex response to global change.

Author

Paltsev A, Bergström AK, Vuorio K, Creed IF, Hessen DO, Kortelainen P, Vuorenmaa J, de Wit HA, Lau DCP, Vrede T, Isles PDF, Jonsson A, Geibrink E, Kahilainen KK, and Drakare S

Subjects

Sweden, Finland, Climate Change, Phosphorus analysis, Nitrogen analysis, Cyanobacteria growth & development, Lakes chemistry, Phytoplankton, Biomass, Environmental Monitoring

Abstract

Global change may introduce fundamental alterations in phytoplankton biomass and community structure that can alter the productivity of northern lakes. In this study, we utilized Swedish and Finnish monitoring data from lakes that are spatially (135 lakes) and temporally (1995-2019, 110 lakes) extensive to assess how phytoplankton biomass (PB) of dominant phytoplankton groups related to changes in water temperature, pH and key nutrients [total phosphorus (TP), total nitrogen (TN), total organic carbon (TOC), iron (Fe)] along spatial (Fennoscandia) and temporal (25 years) gradients. Using a machine learning approach, we found that TP was the most important determinant of total PB and biomass of a specific species of Raphidophyceae - Gonyostomum semen - and Cyanobacteria (both typically with adverse impacts on food-webs and water quality) in spatial analyses, while Fe and pH were second in importance for G. semen and TN and pH were second and third in importance for Cyanobacteria. However, in temporal analyses, decreasing Fe and increasing pH and TOC were associated with a decrease in G. semen and an increase in Cyanobacteria. In addition, in many lakes increasing TOC seemed to have generated browning to an extent that significantly reduced PB. The identified discrepancy between the spatial and temporal results suggests that substitutions of data for space-for-time may not be adequate to characterize long-term effects of global change on phytoplankton. Further, we found that total PB exhibited contrasting temporal trends (increasing in northern- and decreasing in southern Fennoscandia), with the decline in total PB being more pronounced than the increase. Among phytoplankton, G. semen biomass showed the strongest decline, while cyanobacterial biomass showed the strongest increase over 25 years. Our findings suggest that progressing browning and changes in Fe and pH promote significant temporal changes in PB and shifts in phytoplankton community structures in northern lakes., Competing Interests: Declaration of competing interest The authors declare that they have no known competing financial interests or personal relationships that could have appeared to influence the work reported in this paper., (Copyright © 2024 The Authors. Published by Elsevier B.V. All rights reserved.)

Published

2024

2. Declining calcium concentration drives shifts toward smaller and less nutritious zooplankton in northern lakes.

Author

Bergström AK, Creed IF, Paltsev A, de Wit HA, Lau DCP, Drakare S, Vrede T, Isles PDF, Jonsson A, Geibrink E, Kortelainen P, Vuorenmaa J, Vuorio K, Kahilainen KK, and Hessen DO

Subjects

Animals, Lakes, Zooplankton, Water, Calcium, Cladocera

Abstract

Zooplankton community composition of northern lakes is changing due to the interactive effects of climate change and recovery from acidification, yet limited data are available to assess these changes combined. Here, we built a database using archives of temperature, water chemistry and zooplankton data from 60 Scandinavian lakes that represent broad spatial and temporal gradients in key parameters: temperature, calcium (Ca), total phosphorus (TP), total organic carbon (TOC), and pH. Using machine learning techniques, we found that Ca was the most important determinant of the relative abundance of all zooplankton groups studied, while pH was second, and TOC third in importance. Further, we found that Ca is declining in almost all lakes, and we detected a critical Ca threshold in lake water of 1.3 mg L -1 , below which the relative abundance of zooplankton shifts toward dominance of Holopedium gibberum and small cladocerans at the expense of Daphnia and copepods. Our findings suggest that low Ca concentrations may shape zooplankton communities, and that current trajectories of Ca decline could promote widespread changes in pelagic food webs as zooplankton are important trophic links from phytoplankton to fish and different zooplankton species play different roles in this context., (© 2024 The Authors. Global Change Biology published by John Wiley & Sons Ltd.)

Published

2024

3. Climate change and health: a 2-week course for medical students to inspire change.

Author

Aasheim ET, Bhopal AS, O'Brien K, Lie AK, Nakstad ER, Andersen LF, Hessen DO, Samset BH, and Banik D

Subjects

Humans, Climate Change, Surveys and Questionnaires, Students, Medical

Abstract

Competing Interests: We declare no competing interests.

Published

2023

4. [In vitro fertilisation – new methods, new possibilities, new people]

Author

Hanevik HI and Hessen DO

Subjects

Humans, In Vitro Techniques, Fertilization in Vitro

Published

2022

5. For Your Eyes Only: A Field Experiment on Nudging Hygienic Behavior.

Author

Mobekk H, Hessen DO, Fagerstrøm A, and Jacobsen H

Abstract

These days many gyms and fitness centers are closed to reduce transmission of the SARS-CoV-2 virus in society. The gym is an environment rich in microorganisms, and careful hygiene is a necessity to keep infections at bay. Exercise centers strive for better hygiene compliance among their members. This effort has become essential in light of the current pandemic. Several experimental studies show that others' physical presence, or the "illusion" of being watched, may alter behavior. This article reports on a natural field experiment testing one specific social nudge intended to increase gym members' hygienic behavior. The study was conducted before the SARS-COV-2 pandemic. A picture of "observing eyes" was attached to paper dispensers and cleanser spray bottles at two different gyms in Norway. A reversal design, also called an ABA design, with and without the nudge's presence, was used to investigate the impact on gym members' hygienic behavior. A follow-up study was conducted in one of the centers to investigate whether the nudge stimuli would function over time. The study included 254 individual choice situations during nine observation sessions conducted over 9 weeks. The results from both centers provide evidence of a strong effect of the nudge. However, the effect decreased during the follow-up study. These findings support previous research indicating that human behavior is influenced by the presence of implicit observation cues - in this case - observing eyes. However, insights into the long-term effect of implicit observation cues are still needed since the salience of the stimuli faded over time., Competing Interests: The authors declare that the research was conducted in the absence of any commercial or financial relationships that could be construed as a potential conflict of interest., (Copyright © 2020 Mobekk, Hessen, Fagerstrøm and Jacobsen.)

Published

2020

6. Ecology of predator-induced morphological defense traits in Daphnia longispina (Cladocera, Arthropoda).

Author

Sperfeld E, Nilssen JP, Rinehart S, Schwenk K, and Hessen DO

Subjects

Animals, Larva, Predatory Behavior, Scandinavian and Nordic Countries, Cladocera, Daphnia

Abstract

Inducible defenses against predators are widespread among plants and animals. For example, some Daphnia species form neckteeth against predatory larvae of the dipteran genus Chaoborus. Though thoroughly studied in D. pulex, knowledge about neckteeth in other Daphnia species is limited. The occurrence of this trait in the D. longispina species complex is only sporadically reported and the specific shape of neckteeth or the occurrence of other morphological defense traits is scarcely known in this widespread group. Here, we explored neckteeth occurrence in a large number of D. longispina populations across Scandinavia and studied neckteeth formation and other morphological defense traits on three D. longispina clones in the laboratory. In the study region, neckteeth on juvenile D. longispina s. str. were observed frequently in permanent ponds, but only when Chaoborus spp. larvae were present. In the laboratory experiments, all three D. longispina clones developed neckteeth (very similar to D. pulex) in response to Chaoborus kairomone exposure. The D. longispina clones also developed a longer tail spine, wider body, and larger neckteeth pedestal in response to predation threat-likely as a defense against the gape-limited predator. The intensity of neckteeth expression also depended on the clone studied and the concentration of Chaoborus kairomone. Our results demonstrate that neckteeth on D. longispina can be common in nature and that D. longispina can also induce other morphological defenses against predators. The similarity of neckteeth in D. longispina and D. pulex imposes yet unresolved questions on the evolutionary origin in these distantly related Daphnia groups.

Published

2020

7. Implications of Coastal Darkening for Contaminant Transport, Bioavailability, and Trophic Transfer in Northern Coastal Waters.

Author

McGovern M, Evenset A, Borgå K, de Wit HA, Braaten HFV, Hessen DO, Schultze S, Ruus A, and Poste A

Published

2019

8. Modelling ROS formation in boreal lakes from interactions between dissolved organic matter and absorbed solar photon flux.

Author

Wolf R, Thrane JE, Hessen DO, and Andersen T

Subjects

Animals, Ecosystem, Hydrogen Peroxide analysis, Hydrogen Peroxide chemistry, Norway, Sunlight, Sweden, Ultraviolet Rays, Water, Zooplankton, Lakes chemistry, Reactive Oxygen Species chemistry

Abstract

Concentrations of dissolved organic matter (DOM) are increasing in a large number of lakes across the Northern hemisphere. This browning serves a dual role for biota by protecting against harmful ultraviolet radiation, while also absorbing photosynthetically active radiation. The photochemical activation of DOM and subsequent formation of reactive oxygen species (ROS) is a potentially harmful side effect, but can be difficult to measure directly in situ. In this study, we combine a data set of physico-chemical properties from 71 Nordic lakes with in vitro ROS formation quantum yields to predict ROS formations across a representative boreal ecosystem gradient. For the upper centimeter of the water column, we calculate ROS formations in the range of 7.93-12.56 μmol L -1  h -1 . In the first meter, they range between 1.69 and 6.69 μmol L -1  h -1 and in the remaining depth the range is 0.01-0.46 μmol L -1  h -1 . These ROS formations are comparable with previously field-measured hydrogen peroxide formation rates and likely affect both phyto- and zooplankton, as well as lake chemistry. Interestingly, wavelengths of the visible spectrum (>400 nm) contribute more than half of the overall ROS formation in surface-near water layers. The association between DOM and ROS formation was found to be two-fold. While DOM promotes ROS formation in the first centimeters of the water column, the shading effect of light attenuation overpowers this with increasing depth. In the context of water browning, our results indicate the emergence of an underestimated oxidative stress environment for lake biota in the upper centimeters of the water column., (Copyright © 2018 Elsevier Ltd. All rights reserved.)

Published

2018

9. Growth, stoichiometry and cell size; temperature and nutrient responses in haptophytes.

Author

Skau LF, Andersen T, Thrane JE, and Hessen DO

Abstract

Temperature and nutrients are key factors affecting the growth, cell size, and physiology of marine phytoplankton. In the ocean, temperature and nutrient availability often co-vary because temperature drives vertical stratification, which further controls nutrient upwelling. This makes it difficult to disentangle the effects of temperature and nutrients on phytoplankton purely from observational studies. In this study, we carried out a factorial experiment crossing two temperatures (13°and 19°C) with two growth regimes (P-limited, semi-continuous batch cultures ["-P"] and nutrient replete batch cultures in turbidostat mode ["+P"]) for three species of common marine haptophytes ( Emiliania huxleyi, Chrysochromulina rotalis and Prymnesium polylepis ) to address the effects of temperature and nutrient limitation on elemental content and stoichiometry (C:N:P), total RNA, cell size, and growth rate. We found that the main gradient in elemental content and RNA largely was related to nutrient regime and the resulting differences in growth rate and degree of P-limitation, and observed reduced cell volume-specific content of P and RNA (but also N and C in most cases) and higher N:P and C:P in the slow growing -P cultures compared to the fast growing +P cultures. P-limited cells also tended to be larger than nutrient replete cells. Contrary to other recent studies, we found lower N:P and C:P ratios at high temperature. Overall, elemental content and RNA increased with temperature, especially in the nutrient replete cultures. Notably, however, temperature had a weaker-and in some cases a negative-effect on elemental content and RNA under P-limitation. This interaction indicates that the effect of temperature on cellular composition may differ between nutrient replete and nutrient limited conditions, where cellular uptake and storage of excess nutrients may overshadow changes in resource allocation among the non-storage fractions of biomass (e.g. P-rich ribosomes and N-rich proteins). Cell size decreased at high temperature, which is in accordance with general observations., Competing Interests: The authors declare there are no competing interests.

Published

2017

10. Genome size in arthropods; different roles of phylogeny, habitat and life history in insects and crustaceans.

Author

Alfsnes K, Leinaas HP, and Hessen DO

Abstract

Despite the major role of genome size for physiology, ecology, and evolution, there is still mixed evidence with regard to proximate and ultimate drivers. The main causes of large genome size are proliferation of noncoding elements and/or duplication events. The relative role and interplay between these proximate causes and the evolutionary patterns shaped by phylogeny, life history traits or environment are largely unknown for the arthropods. Genome size shows a tremendous variability in this group, and it has a major impact on a range of fitness-related parameters such as growth, metabolism, life history traits, and for many species also body size. In this study, we compared genome size in two major arthropod groups, insects and crustaceans, and related this to phylogenetic patterns and parameters affecting ambient temperature (latitude, depth, or altitude), insect developmental mode, as well as crustacean body size and habitat, for species where data were available. For the insects, the genome size is clearly phylogeny-dependent, reflecting primarily their life history and mode of development, while for crustaceans there was a weaker association between genome size and phylogeny, suggesting life cycle strategies and habitat as more important determinants. Maximum observed latitude and depth, and their combined effect, showed positive, and possibly phylogenetic independent, correlations with genome size for crustaceans. This study illustrate the striking difference in genome sizes both between and within these two major groups of arthropods, and that while living in the cold with low developmental rates may promote large genomes in marine crustaceans, there is a multitude of proximate and ultimate drivers of genome size.

Published

2017

11. From greening to browning: Catchment vegetation development and reduced S-deposition promote organic carbon load on decadal time scales in Nordic lakes.

Author

Finstad AG, Andersen T, Larsen S, Tominaga K, Blumentrath S, de Wit HA, Tømmervik H, and Hessen DO

Abstract

Increased concentrations of dissolved organic carbon (DOC), often labelled "browning", is a current trend in northern, particularly boreal, freshwaters. The browning has been attributed to the recent reduction in sulphate (S) deposition during the last 2 to 3 decades. Over the last century, climate and land use change have also caused an increasing trend in vegetation cover ("greening"), and this terrestrially fixed carbon represents another potential source for export of organic carbon to lakes and rivers. The impact of this greening on the observed browning of lakes and rivers on decadal time scales remains poorly investigated, however. Here, we explore time-series both on water chemistry and catchment vegetation cover (using NDVI as proxy) from 70 Norwegian lakes and catchments over a 30-year period. We show that the increase in terrestrial vegetation as well as temperature and runoff significantly adds to the reduced SO4-deposition as a driver of freshwater DOC concentration. Over extended periods (centuries), climate mediated changes in vegetation cover may cause major browning of northern surface waters, with severe impact on ecosystem productivity and functioning.

Published

2016

12. Increased risk of phosphorus limitation at higher temperatures for Daphnia magna.

Author

Persson J, Wojewodzic MW, Hessen DO, and Andersen T

Subjects

Animals, Carbon metabolism, Daphnia growth & development, Nitrogen metabolism, Seasons, Daphnia metabolism, Phosphorus metabolism, Temperature

Abstract

Invertebrate herbivores frequently face growth rate constraints due to their high demands for phosphorus (P) and nitrogen (N). Temperature is a key modulator of growth rate, yet the interaction between temperature and P limitation on somatic growth rate is scarcely known. To investigate this interaction, we conducted a study on the somatic growth rate (SGR) of the cladoceran Daphnia magna, known to be susceptible to P-limitation. We determined the SGR across a broad range of dietary P content of algae (carbon (C):P ratios (125-790), and at different temperatures (10-25°C). There was a strong impact of both temperature and C:P ratio on the SGR of D. magna, and also a significant interaction between both factors was revealed. The negative effect of dietary C:P on growth rate was reduced with decreased temperature. We found no evidence of P limitation at lowest temperature, suggesting that enzyme kinetics or other measures of food quality overrides the demands for P to RNA and protein synthesis at low temperatures. These findings also indicate an increased risk of P limitation and thus reduced growth efficiency at high temperatures.

Published

2011

13. Filtering structures and particle size selection in coexisting Cladocera.

Author

Hessen DO

Abstract

Five commonly co-occurring cladocerans, Holopedium gibberum, Daphnia longispina, Ceriodaphnia quadrangula, Bosmina longispina, Diaphanosoma brachyurum and the calanoid copepod Eudiaptomus gracilis were fed monodisperse fluorescent latex beads (0.5, 1,5 μm) to reveal clearance rates and particle size selection. The results were compared to those obtained with labelled bacteria and yeast. All cladoceran species ingested the beads, and particle size selection varied from a strong predominance of the largest particles in Holopedium, to an almost non selective particle retention in Diaphanosoma. The results indicated a strong correlation between morphology of the filtering combs, measured by Scanning electron microscopy, and ability to retain the smallest particles.

Published

1985