Your search keyword '"Mesocosm experiment"' showing total 18 results

1. Carbon Storage Potential and Saturation Behavior of Soils As Influenced by Level of C Input and Soil Types in Indian Sub-Continent.

Author

Datta, Ashim, Badole, Shrikant, Stewart, Catherine E., Majumder, S. P., Krishna Chaitanya, A., Basak, Nirmalendu, Kundu, Ritesh, Ghosh, Samrat, and Mandal, Biswapati

Subjects

*ARID soils, *ALFISOLS, *CLIMATE change mitigation, *INCEPTISOLS, *AGRICULTURE

Abstract

Agricultural soils have the potential to store C (carbon), thereby improving soil health, and contributing to climate change mitigation. However, the capacity of a soil to hoard C may be limited. We tested the C saturation behavior of agricultural soils belonging to predominant soil orders (Inceptisols, Entisols, Alfisols, Aridisols and Vertisols) in Indian Subcontinent. A mesocosm experiment in open environmental conditions was conducted with six rate of farmyard manure (FYM) addition (0, 2.5, 5.0, 10.0, 20.0 and 40 Mg ha−1) for three and half years and total carbon (TC) was analyzed. Addition of more than 10 Mg FYM ha−1 enhanced TC content of soil with the period of experimentation irrespective of soil orders. Application of C input of the agriculturally recommended addition of FYM in India at 5.0 Mg ha−1 maintained the soil TC content. Without addition of any C input, sometimes there was depletion in native carbon. With higher levels of C additions, all the soils did not show any evidence of C saturation, thereby suggesting their higher potential to additional C storage. Indian agricultural soils could contribute significantly toward achieving the target of "4 per 1000" initiative of the United Nations. Higher organic carbon in soils would make agroecosystems more resilient toward extreme climate events and sustain crops productivity thereby could help to meet the food demand of the ever-increasing population of the country in the years to come. [ABSTRACT FROM AUTHOR]

Published

2024

2. Direct effect of artificial warming on communities is stronger than its indirect effect through body mass reduction.

Author

Bazin, Simon, Diouloufet, Virginie, Molina, Ange, Peroux, Tiphaine, Montoya, Jose M., Blanchet, Simon, Edeline, Eric, Jacquet, Stéphan, Rasconi, Serena, Fayolle, Stéphanie, Campana, Marina, Zambeaux, Thalia, Leclerc, Camille, Lassus, Rémy, Morla, Julie, Daufresne, Martin, and Sentis, Arnaud

Subjects

*SEASONAL temperature variations, *SIZE of fishes, *BODY size, *TROPHIC cascades, *ORYZIAS latipes, *PREDATION

Abstract

Theory predicts that morphological and bioenergetic constraints due to temperature‐induced body size reduction can modulate the direct effects of warming on biotic interactions, with consequent effects on trophic cascades and biomass distribution. However, these theoretical predictions have rarely been tested empirically. Our aim was to distinguish the indirect effects of warming‐induced body size reductions from the direct effects of warming on community structure. We conducted a mesocosm experiment manipulating factorially 1) body size reduction in the medaka fish Oryzias latipes using two populations raised for several generations under contrasted climate conditions and 2) warming (+4°C), to test their independent and interactive effects on the structure of prey and primary resource communities, the predator–prey biomass ratio and the biomass size spectra. We further dissected the effects of seasonal temperature variation from the effects of constant artificial warming. We found that the indirect effects of warming (i.e. fish body size reduction) on composition and structure of communities as well as their biomass size spectra were of marginal amplitude compared to the direct effects of seasonal temperature variation and constant warming. There were no changes in community composition in response to fish body size reduction or constant warming. However, the density of macroinvertebrates and zooplankton were maximal at intermediate seasonal water temperatures and lower in constantly‐heated mesocosms. Contrastingly, phytoplankton was not strongly affected by seasonal temperature or warming, but rather responded to grazing effects of zooplankton. Finally, we found a reduction in predator–prey biomass ratio under warming and at the warmest seasonal temperature, inducing a steeper slope of the biomass size spectra under increasing seasonal (but not constant) temperature. We conclude that the direct effects of climate change on freshwater communities are stronger than its indirect effects mediated by body mass reduction. [ABSTRACT FROM AUTHOR]

Published

2024

3. Dung beetles drive direct and indirect changes in ecosystem multifunctionality.

Author

Hasan, Fevziye, Wallace, Kiri J., Fowler, Simon V., Schipper, Louis A., Hemmings, Zac, Berson, Jacob D., and Barnes, Andrew D.

Subjects

*DUNG beetles, *STRUCTURAL equation modeling, *SOIL respiration, *SOIL productivity, *MICROBIAL respiration

Abstract

Measuring ecosystem multifunctionality (EMF) could be a valuable method for assessing whether nature‐based solutions, such as introducing non‐native species to benefit ecosystem functioning, yield net positive outcomes. While EMF metrics may provide a coarse overview of the functioning of a system, such metrics can obscure the interactions among multiple simultaneously occurring ecosystem functions. This could limit the predictive value and overall efficacy of EMF metrics for the management of environmental change impacts on ecosystem functioning.We carried out a mesocosm experiment with dung beetle temporal species richness (diversity) treatments in a pasture ecosystem in Aotearoa New Zealand and quantified cascading biotic and abiotic effects of introduced dung beetles (Onthophagus binodis and Onitis alexis) on multiple ecosystem functions. We measured nine individual ecosystem functions affected by dung beetles, including dung removal, total soil carbon, nitrogen, phosphorus, soil microbial respiration, nitrate N, ammonium N, anaerobically mineralisable N and pasture biomass production.We first tested the effects of temporal dung beetle diversity on the nine individual ecosystem functions. We then tested how introduced dung beetle temporal diversity affects ecosystem multifunctionality by calculating EMF metrics using the averaging, threshold and the Hill numbers approaches. Finally, to investigate the underlying interactions among individual functions, we tested the direct and indirect effects of introduced dung beetles on the nine ecosystem functions using structural equation modelling (SEM).Only one out of the nine individual ecosystem functions was significantly affected by dung beetle introductions, whereas five of the six calculated EMF metrics increased significantly with temporal diversity of introduced dung beetles. However, when modelled within an SEM framework, dung beetle temporal diversity was found to directly affect dung removal, but with cascading effects on total N and anaerobically mineralisable N.Our results suggest that introducing and increasing dung beetle temporal diversity enhances the provisioning of multiple ecosystem functions, but that our ability to detect and explain changes in ecosystem multifunctionality is critically dependent on how EMF is quantified. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

4. Forest floor environment overrules global change treatment effects on understorey communities in a mesocosm experiment.

Author

Lorer, Eline, Landuyt, Dries, Blondeel, Haben, De Frenne, Pieter, and Verheyen, Kris

Subjects

*FOREST management, *NITROGEN in soils, *PLANT communities, *FOREST microclimatology, *FOREST reserves

Abstract

Light availability profoundly influences plant communities, especially below dense tree canopies in forests. Canopy disturbances, altering forest floor light conditions, together with other environmental changes such as climate change, nitrogen deposition and legacy effects from previous land‐use will simultaneously impact forest understorey communities. Yet, knowledge on the individual effects of these drivers and their potential interactions remains scarce. Here we performed a forest mesocosm experiment to assess the influence of warming, illumination (simulating canopy opening), nitrogen deposition and soil land‐use history (comparing ancient and post‐agricultural forest soil) on understorey community composition trajectories over a 7‐year period. Strikingly, understorey communities primarily evolved in response to the deeply shaded ambient forest conditions, with experimental treatments exerting only secondary influences. The overruling trajectory steered all mesocosms towards slow‐colonizing forest specialist communities dominated by spring geophytes with lower nutrient‐demand. The illumination treatment and, to a lesser extent, warming and agricultural land‐use legacy slowed down this trend by advancing fast‐growing resource‐acquisitive generalist species. Warm ambient temperatures induced thermophilization of plant communities in all treatments, including control plots, towards higher dominance of warm‐adapted species. Nitrogen addition accelerated this thermophilization process and increased the community light‐demand signature. Land‐use legacy effects were limited in our study. Our findings underscore the essential role of limited light availability in preserving forest specialists in understorey communities and highlight the importance of maintaining a dense canopy cover to attenuate global change impacts. It is crucial to integrate this knowledge in forest management adaptation to global change, particularly in the face of increasing demands for wood and wood products and intensified natural canopy disturbances. [ABSTRACT FROM AUTHOR]

Published

2024

5. Can allelopathic potentialities of Mediterranean plant species reduce the spread of invasive plant species, Acacia dealbata and Ailanthus altissima?

Author

Brasseur, Solène, Santonja, Mathieu, Rébufa, Catherine, Affre, Laurence, Dupouyet, Sylvie, Dumas, Estelle, Tatoni, Thierry, Farnet Da Silva, Anne‐Marie, and Bousquet‐Mélou, Anne

Subjects

*INVASIVE plants, *AILANTHUS altissima, *PLANT species, *INTRODUCED species, *INTRODUCED plants, *ACACIA

Abstract

Beyond ecological and health impacts, invasive alien plant species can generate indirect and direct costs, notably through reduced agricultural yields, restoration, and management of the invaded environment. Acacia dealbata and Ailanthus altissima are invasive plant species that cause particularly significant damage to the railway network in the Mediterranean area. The allelopathic properties of Mediterranean plant species could be used as nature‐based solutions to slow down the spread of such invasive plant species along railway borders. In this context, a mesocosm experiment was set‐up: (i) to test the potential allelopathic effects of Cistus ladanifer, Cistus albidus, and Cotinus coggygria leaf aqueous extracts on seed germination and seedling growth of A. dealbata and A. altissima; (ii) to evaluate whether these effects depend on the extract dose; and finally, (iii) to estimate whether these effects are modified by soil amendment. Leaf aqueous extracts of the three native plant species showed negative effects on both seed germination and seedling growth of the two invasive species. Our results show that the presence of allelochemicals induces a delay in seed germination (e.g., A. dealbata germination lasted up to 269% longer in the presence of high‐dose leaf aqueous extracts of C. coggygria), which can lead to a decrease in individual recruitment. They also highlight a decrease in seedling growth (e.g., high‐dose C. coggygria leaf aqueous extracts induced a 26% decrease in A. dealbata radicle growth), which can alter the competitiveness of invasive species for resource access. Our results also highlight that compost addition limits the inhibitory effect of native Mediterranean plants on the germination of invasive alien plants, suggesting that soil organic matter content can counteract allelopathic effects on invasive alien plants. Thus, our findings revealed that the allelopathic potential of certain Mediterranean plant species could be a useful tool to manage invasive plant species. [ABSTRACT FROM AUTHOR]

Published

2024

6. Combined effect of temporal inundation and aboveground-cutting on the growth performance of two emergent wetland plants, Phragmites australis and Bolboschoenus planiculmis

Author

Hee-Sun Park, Ji Yoon Kim, Gu-Yeon Kim, Hyunbin Jo, and Gea-Jae Joo

Subjects

Brackish wetland, Food plant, Mesocosm experiment, Mortality, Vegetation management, Water level, Medicine, Biology (General), QH301-705.5

Abstract

Background Phragmites australis is a common foundation species found in inland and brackish estuarine ecosystems. P. australis stands provide a wide range of habitats for wetland organisms and perform essential functions, such as nutrient cycling, pollutant filtration, wave energy reduction, and soil stabilization. However, excessive growth of P. australis can degrade the quality of wetland habitats, thereby reducing the functions of restored wetlands. Methods In this study, we investigated the effectiveness of vegetation management techniques, such as aboveground cutting and temporal inundation with varying depth and periodicity, in controlling the growth performance of P. australis and adjacent vegetation, Bolboschoenus planiculmis. Differences in growth responses to manipulated inundation stress between P. australis and B. planiculmis were measured. Results Inundation stress of 10–50 cm caused significantly greater inhibition of growth performance in B. planiculmis compared to P. australis. The combination of aboveground-cutting and inundation treatments resulted in a significant inhibitory effect on the growth performance and survival rate of P. australis. The growth performance of P. australis, including stem volume and biomass, decreased and its mortality rate increased. Our manipulated experiment suggests a combined treatment approach of moderate inundation, such as 5–10 cm for 20–30 days, and aboveground cutting to manage the overgrowth of P. australis in restored brackish wetlands.

Published

2024

7. Sizing mudsnails: Applying superpixels to scale growth detection under ocean warming

Author

Liam MacNeil, Léa J. Joly, Maysa Ito, Anna Steinmann, Knut Mehler, and Marco Scotti

Subjects

automatic size measurement, Hydrobiidae, image segmentation, mesocosm experiment, superpixels, Wadden Sea, Ecology, QH540-549.5, Evolution, QH359-425

Abstract

Abstract The expansion of scientific image data holds great promise to quantify individuals, size distributions and traits. Computer vision tools are especially powerful to automate data mining of images and thus have been applied widely across studies in aquatic and terrestrial ecology. Yet marine benthic communities, especially infauna, remain understudied despite their dominance of marine biomass, biodiversity and playing critical roles in ecosystem functioning. Here, we disaggregated infauna from sediment cores taken throughout the spring transition (April–June) from a near‐natural mesocosm setup under experimental warming (Ambient, +1.5°C, +3.0°C). Numerically abundant mudsnails were imaged in batches under stereomicroscopy, from which we automatically counted and sized individuals using a superpixel‐based segmentation algorithm. Our segmentation approach was based on clustering superpixels, which naturally partition images by low‐level properties (e.g., colour, shape and edges) and allow instance‐based segmentation to extract all individuals from each image. We demonstrate high accuracy and precision for counting and sizing individuals, through a procedure that is robust to the number of individuals per image (5–65) and to size ranges spanning an order of magnitude (40k individuals and revealed overall growth in response to springtime warming. We illustrate that image processing and segmentation workflows can be built upon existing open‐access R packages, underlining the potential for wider adoption of computer vision tools among ecologists. The image‐based approach also generated reproducible data products that, alongside our scripts, we have made freely available. This work reinforces the need for next‐generation monitoring of benthic communities, especially infauna, which can display differential responses to average warming.

Published

2024

8. Sizing mudsnails: Applying superpixels to scale growth detection under ocean warming.

Author

MacNeil, Liam, Joly, Léa J., Ito, Maysa, Steinmann, Anna, Mehler, Knut, and Scotti, Marco

Subjects

COMPUTER vision, IMAGE segmentation, AQUATIC ecology, IMAGE processing, SPRING, MARINE biodiversity, MARINE biomass, COLOR of birds

Abstract

The expansion of scientific image data holds great promise to quantify individuals, size distributions and traits. Computer vision tools are especially powerful to automate data mining of images and thus have been applied widely across studies in aquatic and terrestrial ecology. Yet marine benthic communities, especially infauna, remain understudied despite their dominance of marine biomass, biodiversity and playing critical roles in ecosystem functioning.Here, we disaggregated infauna from sediment cores taken throughout the spring transition (April–June) from a near‐natural mesocosm setup under experimental warming (Ambient, +1.5°C, +3.0°C). Numerically abundant mudsnails were imaged in batches under stereomicroscopy, from which we automatically counted and sized individuals using a superpixel‐based segmentation algorithm. Our segmentation approach was based on clustering superpixels, which naturally partition images by low‐level properties (e.g., colour, shape and edges) and allow instance‐based segmentation to extract all individuals from each image.We demonstrate high accuracy and precision for counting and sizing individuals, through a procedure that is robust to the number of individuals per image (5–65) and to size ranges spanning an order of magnitude (<750 μm to 7.4 mm). The segmentation routine provided at least a fivefold increase in efficiency compared with manual measurements. Scaling this approach to a larger dataset tallied >40k individuals and revealed overall growth in response to springtime warming.We illustrate that image processing and segmentation workflows can be built upon existing open‐access R packages, underlining the potential for wider adoption of computer vision tools among ecologists. The image‐based approach also generated reproducible data products that, alongside our scripts, we have made freely available. This work reinforces the need for next‐generation monitoring of benthic communities, especially infauna, which can display differential responses to average warming. [ABSTRACT FROM AUTHOR]

Published

2024

9. Can allelopathic potentialities of Mediterranean plant species reduce the spread of invasive plant species, Acacia dealbata and Ailanthus altissima?

Author

Solène Brasseur, Mathieu Santonja, Catherine Rébufa, Laurence Affre, Sylvie Dupouyet, Estelle Dumas, Thierry Tatoni, Anne‐Marie Farnet Da Silva, and Anne Bousquet‐Mélou

Subjects

allelopathy, invasive alien plant species management, mesocosm experiment, seed germination, seedling growth, Ecology, QH540-549.5

Abstract

Abstract Beyond ecological and health impacts, invasive alien plant species can generate indirect and direct costs, notably through reduced agricultural yields, restoration, and management of the invaded environment. Acacia dealbata and Ailanthus altissima are invasive plant species that cause particularly significant damage to the railway network in the Mediterranean area. The allelopathic properties of Mediterranean plant species could be used as nature‐based solutions to slow down the spread of such invasive plant species along railway borders. In this context, a mesocosm experiment was set‐up: (i) to test the potential allelopathic effects of Cistus ladanifer, Cistus albidus, and Cotinus coggygria leaf aqueous extracts on seed germination and seedling growth of A. dealbata and A. altissima; (ii) to evaluate whether these effects depend on the extract dose; and finally, (iii) to estimate whether these effects are modified by soil amendment. Leaf aqueous extracts of the three native plant species showed negative effects on both seed germination and seedling growth of the two invasive species. Our results show that the presence of allelochemicals induces a delay in seed germination (e.g., A. dealbata germination lasted up to 269% longer in the presence of high‐dose leaf aqueous extracts of C. coggygria), which can lead to a decrease in individual recruitment. They also highlight a decrease in seedling growth (e.g., high‐dose C. coggygria leaf aqueous extracts induced a 26% decrease in A. dealbata radicle growth), which can alter the competitiveness of invasive species for resource access. Our results also highlight that compost addition limits the inhibitory effect of native Mediterranean plants on the germination of invasive alien plants, suggesting that soil organic matter content can counteract allelopathic effects on invasive alien plants. Thus, our findings revealed that the allelopathic potential of certain Mediterranean plant species could be a useful tool to manage invasive plant species.

Published

2024

10. Forest understorey flowering phenology responses to experimental warming and illumination.

Author

Lorer, Eline, Verheyen, Kris, Blondeel, Haben, De Pauw, Karen, Sanczuk, Pieter, De Frenne, Pieter, and Landuyt, Dries

Subjects

*PLANT phenology, *PHENOLOGY, *GLOBAL warming, *FOREST biodiversity, *TEMPERATE forests, *PLANT species

Abstract

Summary: Species are altering their phenology to track warming temperatures. In forests, understorey plants experience tree canopy shading resulting in light and temperature conditions, which strongly deviate from open habitats. Yet, little is known about understorey phenology responses to forest microclimates.We recorded flowering onset, peak, end and duration of 10 temperate forest understorey plant species in two mesocosm experiments to understand how phenology is affected by sub‐canopy warming and how this response is modulated by illumination, which is related to canopy change. Furthermore, we investigated whether phenological sensitivities can be explained by species' characteristics, such as thermal niche.We found a mean advance of flowering onset of 7.1 d per 1°C warming, more than previously reported in studies not accounting for microclimatic buffering. Warm‐adapted species exhibited greater advances. Temperature sensitivity did not differ between early‐ and later‐flowering species. Experimental illumination did not significantly affect species' phenological temperature sensitivities, but slightly delayed flowering phenology independent from warming.Our study suggests that integrating sub‐canopy temperature and light availability will help us better understand future understorey phenology responses. Climate warming together with intensifying canopy disturbances will continue to drive phenological shifts and potentially disrupt understorey communities, thereby affecting forest biodiversity and functioning. [ABSTRACT FROM AUTHOR]

Published

2024

11. Combining multiple investigative approaches to unravel functional responses to global change in the understorey of temperate forests.

Author

Landuyt, Dries, Perring, Michael P., Blondeel, Haben, De Lombaerde, Emiel, Depauw, Leen, Lorer, Eline, Maes, Sybryn L., Baeten, Lander, Bergès, Laurent, Bernhardt‐Römermann, Markus, Brūmelis, Guntis, Brunet, Jörg, Chudomelová, Markéta, Czerepko, Janusz, Decocq, Guillaume, den Ouden, Jan, De Frenne, Pieter, Dirnböck, Thomas, Durak, Tomasz, and Fichtner, Andreas

Subjects

*TEMPERATE forests, *GLOBAL warming, *ATMOSPHERIC nitrogen, *ATMOSPHERIC deposition, *COMMUNITY forests, *PLANT diversity

Abstract

Plant communities are being exposed to changing environmental conditions all around the globe, leading to alterations in plant diversity, community composition, and ecosystem functioning. For herbaceous understorey communities in temperate forests, responses to global change are postulated to be complex, due to the presence of a tree layer that modulates understorey responses to external pressures such as climate change and changes in atmospheric nitrogen deposition rates. Multiple investigative approaches have been put forward as tools to detect, quantify and predict understorey responses to these global‐change drivers, including, among others, distributed resurvey studies and manipulative experiments. These investigative approaches are generally designed and reported upon in isolation, while integration across investigative approaches is rarely considered. In this study, we integrate three investigative approaches (two complementary resurvey approaches and one experimental approach) to investigate how climate warming and changes in nitrogen deposition affect the functional composition of the understorey and how functional responses in the understorey are modulated by canopy disturbance, that is, changes in overstorey canopy openness over time. Our resurvey data reveal that most changes in understorey functional characteristics represent responses to changes in canopy openness with shifts in macroclimate temperature and aerial nitrogen deposition playing secondary roles. Contrary to expectations, we found little evidence that these drivers interact. In addition, experimental findings deviated from the observational findings, suggesting that the forces driving understorey change at the regional scale differ from those driving change at the forest floor (i.e., the experimental treatments). Our study demonstrates that different approaches need to be integrated to acquire a full picture of how understorey communities respond to global change. [ABSTRACT FROM AUTHOR]

Published

2024

12. Effects of changes in N and P stoichiometry on epipelon and phytoplankton chlorophyll-a under eutrophic condition

Author

Luyza Mayary Amaral, Ruan de Oliveira Carneiro, and Carla Ferragut

Subjects

enrichment, eutrophic reservoir, N and P limitation, mesocosm experiment, Botany, QK1-989

Abstract

ABSTRACT Nitrogen and phosphorus are essential elements for the growth and performance of organisms, and the environmental N:P ratio can determine the biomass and structure of algal communities. We investigated the effects in the N:P molar ratio changes on epipelon and phytoplankton chlorophyll-a under eutrophic conditions. An enrichment experiment was performed in open-bottom mesocosms to simulate P limitation, N limitation, and good N and P availability. Under eutrophic conditions, the combined availability of N and P enhanced phytoplankton bloom, while an increase in P limitation resulted in the loss of phytoplankton biomass. Under conditions of high P limitation, there was significantly loss of epipelon biomass. No change in the N:P ratio led to a significant increase in algal biomass in the epipelon. In conclusion, changes in the N:P molar ratio can affect the growth of phytoplankton and epipelic algae under eutrophic conditions. Our results suggest that photosynthetic biomass increase in the epipelon depends on an optimal relationship between light and P.

Published

2024

13. Responses of coastal phytoplankton communities to seasonal herbicide inputs: Tolerance or degeneration?

Author

Wang, Yunsheng, Chen, Ying, Zhang, Fuwei, Li, Lingxiao, Ru, Shaoguo, and Yang, Liqiang

Subjects

*COASTAL biodiversity, *HERBICIDES, *TERRITORIAL waters, *BACTERIAL communities, *MARINE ecology, *ATRAZINE

Abstract

Herbicide-induced phytoplankton inhibition threatens coastal biodiversity and ecosystem function. Although studies employing single-frequence exposure aid in understanding the phytoplankton community's responses to herbicides, it's difficult to objectively assess their response to cyclic herbicide inputs (long-term low-dose and short-term high-dose) in marine ecosystems. Here, we analyzed the concentration and distribution of herbicides in global coastal waters and simulated this cyclic process through a two-phase atrazine exposure mesocosm experiment and laboratory tests. The results indicated that, the herbicide concentrations (0.82 nmol L−1, 95 % CI 0.55, 1.74) from May to August were significantly higher than that (0.14 nmol L−1, 95 % CI 0.02, 0.38) in the remainder months, and highest concentrations typically emerged in summer; the changes in phytoplankton community composition under environmental concentrations of triazine herbicides could recover in the short term, but sustained inhibition of biomass was produced; the dominant populations were more likely to develop tolerance through preexposure and recover from subsequent impulse of atrazine, but this process was accompanied by the loss of rare groups and a decrease in biodiversity, meanwhile, affected the bacterial community in phycosphere. Consequently, we considered that the cyclic herbicide inputs may cause more detrimental effects than single-frequence exposure, potentially leading to a large-scale decline in coastal primary productivity. [Display omitted] • Changes in phytoplankton communities induced by low-dose atrazine are reversible. • Biomass inhibition caused by ambient concentration of atrazine is more sustained. • The dominant populations are more likely to gain tolerance from exposure history. • Community rescue comes with loss of rare groups and decline in biodiversity. • Atrazine produces secondary effects (algae-related) on bacterial communities. [ABSTRACT FROM AUTHOR]

Published

2024

14. Sediment water content drives movement of intertidal crab Helice tientsinensis more strongly than salinity variations.

Author

Li, Xiaoxiao, Yang, Wei, Jiao, Le, Sun, Tao, and Yang, Zhifeng

Subjects

*CRAB populations, *STRUCTURAL equation modeling, *ECOLOGICAL resilience, *CRABS, *SALINITY

Abstract

Intertidal wetlands undergo dynamic water and salinity variations, creating both promising and challenging habitats for diverse organisms. Crabs respond strongly to these variations by means such as altering their movements, thereby restructuring their spatial distribution and influencing coastal ecosystem resilience. However, the movements of crabs under varying environmental conditions require further elucidation. We conducted a systematic mesocosm experiment using the ubiquitous intertidal crab species Helice tientsinensis with four amount levels and six salinity levels of sprayed water applied through a custom apparatus, with a primary focus on crab movement. Crab movement from the experimental side of the apparatus (with altered conditions) to the control side (resembling field conditions of the intertidal wetlands of China's Yellow River Delta) and vice versa was recorded. The results revealed significant differences in moving out of the experimental side and moving in among the different water and salinity conditions, both separately for the two factors and simultaneously. Decreases in water content had a more pronounced effect on crab movement, leading to an increased number of crabs moving out of the experimental side of the apparatus. Conversely, as the experimental side became wetter, crabs tended to move towards it, and this movement was intensified by increases or decreases in water salinity. A structural equation model revealed that the moving-out and moving-in played fundamental roles in determining the number of resident crabs at the end of each experiment. While crabs preferred moist sediment with lower salinity, changes in salinity alone had minimal direct effect compared to sediment water contents. Our results clarify crab movements under varying water and salinity conditions, offering valuable insights to support adaptive interventions for crab populations and inform adaptive conservation and management strategies in intertidal wetlands. • Crab movement plays a vital role in their survival and distribution. • We tested the effects of changes in sediment water content and salinity on crab movements. • Changes in sediment water content affected crab movements more strongly than salinity. • The crab Helice tientsinensis preferred moist sediment with low salinity. [ABSTRACT FROM AUTHOR]

Published

2024

15. The effect of warming and seasonality on bioaccumulation of selected pharmaceuticals in freshwater invertebrates.

Author

Grabicová, Kateřina, Duchet, Claire, Švecová, Helena, Randák, Tomáš, Boukal, David S., and Grabic, Roman

Subjects

*FRESHWATER invertebrates, *BIOACCUMULATION, *GLOBAL warming, *EMERGING contaminants, *FOREST litter, *CLINDAMYCIN, *CLARITHROMYCIN

Abstract

• Evaluation of pharmaceuticals fate in mesocosm experiments under varying conditions. • Even episodical pollution could lead to bioaccumulation of pharmaceuticals. • Bioaccumulation depended on taxon, season and temperature. • Seasonality affected the fate of pharmaceuticals more than warming by +4 °C. • Planorbarius might serve as a sentinel species for environmental studies. Multiple human-induced environmental stressors significantly threaten global biodiversity and ecosystem functioning. Climate warming and chemical pollution are two widespread stressors whose impact on freshwaters is likely to increase. However, little is known about the combined effects of warming on the bioaccumulation of environmentally relevant mixtures of emerging contaminants, such as pharmaceutically active compounds (PhACs) in freshwater biota. This study investigated the bioaccumulation of a mixture of 15 selected PhACs at environmentally relevant concentrations in common freshwater macroinvertebrate taxa, exposed to ambient temperatures and warming (+4 °C) during the warm and cold seasons in two outdoor mesocosm experiments. Nine PhACs (carbamazepine, cetirizine, clarithromycin, clindamycin, fexofenadine, telmisartan, trimethoprim, valsartan and venlafaxine) were dissipated faster in the warm season experiment than in the cold season experiment, while lamotrigine showed the opposite trend. The most bioaccumulated PhACs in macroinvertebrates were tramadol, carbamazepine, telmisartan, venlafaxine, citalopram and cetirizine. The bioaccumulation was taxon, season and temperature dependent, but differences could not be fully explained by the different water stability of the PhACs and their partitioning between water and leaf litter. The highest water-based bioaccumulation factors were found in Asellus and Planorbarius. Moreover, the bioaccumulation of some PhACs increased with warming in Planorbarius , suggesting that it could be used as a sentinel taxon in environmental studies of the effects of climate warming on PhAC bioaccumulation. [Display omitted] [ABSTRACT FROM AUTHOR]

Published

2024

16. Quality matters: Response of bacteria and ciliates to different allochthonous dissolved organic matter sources as a pulsed disturbance in shallow lakes.

Author

Yalçın, Gülce, Yıldız, Dilvin, Calderó-Pascual, Maria, Yetim, Sinem, Şahin, Yiğit, Parakatselaki, Maria-Eleni, Avcı, Feride, Karakaya, Nusret, Ladoukakis, Emmanuel D., Berger, Stella A., Ger, Kemal Ali, Jeppesen, Erik, and Beklioğlu, Meryem

Published

2024

17. Effects of precipitation changes on soil heterotrophic respiration and microbial activities in a switchgrass mesocosm experiment.

Author

Dai, Wei, Parajuli, Madhav, Jian, Siyang, Hui, Dafeng, Fay, Philip, and Li, Jianwei

Subjects

*HETEROTROPHIC respiration, *SOIL respiration, *SWITCHGRASS, *MICROBIAL respiration, *SOIL moisture, *EXTRACELLULAR enzymes

Abstract

Precipitation changes altered soil heterotrophic respiration, but the underlying microbial mechanisms remain rarely studied. This study conducted three-year switchgrass (Panicum virgatum L.) mesocosm experiment to investigate soil heterotrophic respiratory responses to altered precipitation. Five treatments were considered, including ambient precipitation (P0), two wet treatments (P+33 and P+50: 33% and 50% enhancement relative to P0), and two drought treatments (P-33 and P-50: 33% and 50% reduction relative to P0). The plant's aboveground biomass (AGB), soil organic carbon (SOC), total nitrogen (TN), microbial biomass carbon (MBC), heterotrophic respiration (R s), biomass-specific respiration (R ss : respiration per unit of microbial biomass as a reciprocal index of microbial growth efficiency), and extracellular enzymes activities (EEAs) were quantified in soil samples (0–15 cm). Despite significantly different soil moisture contents among treatments, results showed no impact of precipitation treatments on SOC and TN. Increasing precipitation had no effect, but decreasing precipitation significantly reduced plant AGB. Relative to P0, P+33 significantly increased R s by more than 3-fold and caused no changes in MBC, leading to significantly higher R ss (P < 0.05). P+33 also significantly increased hydrolytic enzyme activities associated with labile carbon acquisition (C acq) by 115%. The only significant effect of drought treatments was the decreased β - d -cellobiosidase (CBH) and peroxidase (PEO) under P-33. Nonparametric analyses corroborated the strong influences of moisture and CBH on the enhanced precipitation, which stimulated soil respiratory carbon loss, likely driven by both elevated hydrolase activities and reduced microbial growth efficiency. However, the less sensitive drought effects suggested potential microbial tolerance to water deficiency despite depressed plant growth. This study informs the likely decoupled impacts of microbes and plants on soil heterotrophic respiration under changing precipitation in the switchgrass mesocosm experiment. [ABSTRACT FROM AUTHOR]

Published

2024

18. Drought-induced tree mortality in Scots pine mesocosms promotes changes in soil microbial communities and trophic groups.

Author

Jaeger, Astrid C.H., Hartmann, Martin, Conz, Rafaela Feola, Six, Johan, and Solly, Emily F.

Subjects

*TREE mortality, *MICROBIAL communities, *SCOTS pine, *FOREST soils, *SOILS, *FUNGAL communities

Abstract

Increased tree mortality related to water limitation is documented for various species at different sites globally. Nevertheless, our understanding of tree mortality effects on soil microbial communities remains scarce. Therefore, we conducted a mesocosm experiment with young Scots pine saplings and natural forest soil with differing drought legacies to follow changes in soil microbial communities during tree mortality. Scots pine saplings were completely deprived of water during the experiment until they died. Shifts in soil microbial communities during tree mortality were assessed by metabarcoding in parallel with measurements of tree vitality and physicochemical soil properties. Drought history influenced the rate at which trees died, although high individual differences were observed. Tree death was accompanied by reduced stomatal conductance, discoloring of needles, increased defoliation, and shrinkage of the stem diameter. Soil NO 3 − concentrations increased after tree death, potentially through diminished plant uptake and increased microbial nitrification. Microbial abundance and community composition were affected by tree death and drought legacy. Copiotrophic bacterial taxa decreased during tree mortality, while oligotrophic taxa increased, probably slowing down soil carbon turnover. Fungal saprotrophs decreased, while symbiotrophs, such as ectomycorrhizal (ECM) fungi, increased in abundance, potentially through facultative saprothrophy and as a survival strategy of the trees in the initial phase of dying. Overall, our results indicate that drought-induced tree mortality promotes changes in soil prokaryotic and fungal communities, potentially affecting soil processes in forest ecosystems. [Display omitted] • Drought history influences tree mortality with high individuality among trees. • Soil nitrate concentrations increase during tree mortality. • Drought-induced tree mortality affects microbial abundance and community structure. • Copiotrophic bacterial taxa decrease while oligotrophic increase after tree death. • In the initial phase fungal symbiotrophs increase and saprotrophs decrease. [ABSTRACT FROM AUTHOR]

Published

2024