Hydrochemické charakteristiky povrchových vod malých povodí v oblasti horní Stropnice / Chemism of surface waters in small watersheds of the upper part of Stropnice river

BAXOVÁ, Iva

January 2008

Chemism of surface waters in four small watersheds of upper part of Stropnice River was studied from 2005 till 2007. The aim of this work was to consider the relations between different types of land-use and chemism of surface water. There were observed the concentrations of main ions and carbon in the surface waters in eight sample places which were measured monthly. The results were analysed with Repeated Measures ANOVA and Tukey HSD post hoc analyse was used for detail description. There were no differences between surface water chemisms in the upper parts of four streams. Watersheds in the upper parts are similar and can be considered as a close to natural landscape. In the lower parts of four streams which discharged different types of cultural landscape, significant differences in the water chemisms were found. Significant differences were observed also in the three streams in the water chemisms between upper and lower parts of the watersheds as a result of the land-use change. In the stream where land-use does not change between upper and lower parts of watershed, no differences in the water chemisms were observed. The results show positive relation between the chemism of surface water and land-use and possible effect of human impact on landscape ecosystem and its hydrological component.

Impacts of Plant Invasions in Native Plant–Pollinator Networks

Parra-Tabla, Víctor, Arceo-Gómez, Gerardo

01 June 2021

The disruption of mutualisms by invasive species has consequences for biodiversity loss and ecosystem function. Although invasive plant effects on the pollination of individual native species has been the subject of much study, their impacts on entire plant–pollinator communities are less understood. Community-level studies on plant invasion have mainly focused on two fronts: understanding the mechanisms that mediate their integration; and their effects on plant–pollinator network structure. Here we briefly review current knowledge and propose a more unified framework for evaluating invasive species integration and their effects on plant–pollinator communities. We further outline gaps in our understanding and propose ways to advance knowledge in this field. Specifically, modeling approaches have so far yielded important predictions regarding the outcome and drivers of invasive species effects on plant communities. However, experimental studies that test these predictions in the field are lacking. We further emphasize the need to understand the link between invasive plant effects on pollination network structure and their consequences for native plant population dynamics (population growth). Integrating demographic studies with those on pollination networks is thus key in order to achieve a more predictive understanding of pollinator-mediated effects of invasive species on the persistence of native plant biodiversity.

biodiversity loss

ecosystem stability

invasive integration

mutualistic interactions

plant conservation

plant invasions

pollination networks

Biological Sciences

Impacts d’apports de composts de déchets urbains sur la résistance et la résilience de la microflore du sol à des évènements de type canicule/sécheresse / Effects of compost amendments on resistance and resilience of soil Mediterranean microbial communities subjected to drought and/or high temperatureEffects of compost amendments on resistance and resilience of soil Mediterranean microbial communities subjected to drought and/or high temperature

Ben Sassi, Meriem

16 November 2012

Face aux changements climatiques actuels et à l'augmentation des populations, la vulnérabilité du sol et des services écosystémiques qu’il rend s’accroît. En particulier dans les zones climatiques méditerranéennes, les modèles météorologiques prévoient une augmentation des sécheresses estivales et une augmentation des températures accompagnées par l’apparition plus fréquente d’évènements extrêmes de type canicule et sécheresse. Ces événements, leur intensité, leur durée et la soudaineté avec laquelle ils arrivent, sont de nature à affecter la structure et la fonction des écosystèmes avec des conséquences principalement négatives sur leur biodiversité et leurs fonctions et services. Par ailleurs, l’apport de compost au sol pourrait constituer une solution pour prévenir et atténuer les effets des sécheresses et des canicules dans les agrosystèmes méditerranéens. Les objectifs de ce travail étaient de caractériser les effets à court et à long-terme de perturbations de type canicule et/ou sécheresse appliquées à un sol méditerranéen agricole (structures et fonctions des communautés microbiennes édaphiques) et d’étudier les impacts d’épandage préalable de composts sur la réponse à court et à long-terme de ces communautés microbiennes (structures et fonctions) vis-à-vis d’un événement extrême de canicule-sécheresse. Nos travaux nous ont permis d’évaluer l’influence de chacun des facteurs température élevée et sécheresse dans la perturbation canicule et sécheresse associées sur les paramètres microbiologiques et physico-chimiques du sol. Les effets de cette combinaison des deux perturbations a induit des réponses similaires à l’une ou l’autre des perturbations appliquées individuellement en bénéficiant des effets positifs et négatifs sur la communauté microbienne de chaque type de perturbation. Nous avons mis en évidence une durée seuil de la perturbation canicule-sécheresse sur la résistance de la communauté microbienne induisant un changement de structure taxonomique et fonctionnelle. Cette déstructuration de la communauté microbienne est durable et n’a pas permis de résilience. L’ajout préalable de composts de différents types au champ a amélioré la structure physico-chimique et stimulé les microorganismes indigènes du sol. Cependant, face à des perturbations de type canicule-sécheresse (telles que nous les avons testées), il semble que l’apport préalable de compost n’ait pas d’effets majeurs sur l’amélioration de la qualité du sol en terme de stabilité microbienne, mais que l’historique saisonnier influencerait cette stabilité / Current climate change and increasing populations’ growth enhance soil and ecosystem services vulnerability. Meteorological models predicted an increase in summer drought and higher air temperature with more frequent occurrence of extreme events like heat-waves and drought. Intensity and duration of these events may affect structure and functions of ecosystems and thereby the biodiversity and the functions of soil. The amendment of soils with composts could be an alternative to prevent and mitigate the effects of drought and heat waves in the Mediterranean agroecosystems. The objectives of this work were to characterize the effects of short and long-term high temperature and/or drought perturbation on soil Mediterranean microbial communities (structures and functions) and to study the impacts of compost amendment on short and long-term functional and taxonomic responses of microbial communities subjected to drought and high temperature. Our work allowed us to evaluate the influence of each factor (drought or high temperature) within the combined perturbation (drought and high temperature) on microbiological and physico-chemical soil properties. The effects of this combined perturbation induced similar or different responses of each of perturbations applied individually involving positive and negative effects on the microbial community. This work had shown threshold resistance duration inducing a change in taxonomic and functional microbial community structure after high temperature and drought perturbation. This abrupt shift in the community response did not allow resilience. Compost amendments improved the physico-chemical soil structure and stimulated indigenous soil microorganisms. However, it seemed that seasonal soil variations history rather than compost amendment influences soil microbial stability

Évènements extrêmes

Canicule

Sècheresse

Compost

Microflore du sol

Résistance

Résilience

Drought

High-temperature

Compost

Soil microbial communitie

Résilience

Ecosystem stability

571.29

Flows Form Forests: The Mangrove Groundwater Feedback Model MANGA

Bathmann, Jasper

20 January 2022

Due to the wide range of provided ecosystem services of mangroves, their conservation, maintenance, and restoration is of major public interest. The distribution of species and plant growth forms in mangrove ecosystems is patterned in zones. The characteristics of these zonation patterns can provide evidence on ecosystem properties. There is ongoing discussion on the drivers leading to mangrove zonation. No full mechanistic explanation to understand the complete interaction of the multiple factors that determine the mangrove zonation patterns exists.Therefore, the underlying processes require deeper evaluation.This will help to better design mangrove conservation projects, and allow more reliable projections of ecosystem development in a changing climate. Numerical and conceptual modelling facilitates the understanding of system dynamics. In this work, I present the process- and individual-based mangrove population dynamics model MANGA. The mechanistic modelling approach is based on first principles. With the full coupling between a groundwater flow model and an individual-based mangrove growth model, MANGA provides a novel approach to study mangrove ecosystem dynamics. MANGA describes observed mangrove stand zonation in species distribution and plant growth forms as the consequence of the apparent site conditions such as hydrologic conductivity, porewater salinity distribution and the tidal regime. Model parameterization does not only depend on empirical evidence.Knowledge on the underlying processes can also be used for model calibration. Varying model boundary conditions and parameters provides insights to the influence of a variety of abiotic drivers on mangrove zonation. The MANGA model is capable to simulate the reaction of mangrove ecosystem to variations of environmental conditions related to climate change. According to MANGA simulations, for example, mangrove species composition depends on freshwater inputs which alter with varying precipitation regimes. Based on the presented applications of the mechanistic modelling approach, I discuss benefits and current limitations, and outline possible future use of the MANGA model.

info:eu-repo/classification/ddc/570

ddc:570