Your search keyword '"Schaminée, Joop"' showing total 9 results

1. The role of livestock grazing in long-term vegetation changes in coastal dunes: a case study from the Netherlands.

Author

van der Hagen, Harrie G. J. M., Lammers, Erik, van der Meulen, Frank, Pätsch, Ricarda, van Rooijen, Nils M., Sýkora, Karlè V., and Schaminée, Joop H. J.

Subjects

VEGETATION dynamics, RABBIT diseases, SAND dunes, GRAZING, GRASSLANDS, LIVESTOCK, SHRUBS

Abstract

The vegetation of coastal sand dunes is characterized by high species diversity and comprises some of the rarest vegetation types in North-Western Europe. Among them are dune grassland communities whose species richness relies on grazing. Those communities are assessed as a priority habitat type under the Natura 2000 legislation. In autumn 1990, Galloway cows and Nordic Fjord horses were introduced in the coastal dunes of Meijendel near The Hague (52º 7‘N; 4º 20’E), The Netherlands, to reduce encroachment of tall grasses and shrubs, to develop bare sand patches, and as such facilitating diverse vegetation structures in the dune grasslands. In the 1950s, decades before the introduction of livestock, 41 permanent plots were installed. On average, they were examined every four years. Our study hypothesised that the livestock grazing in the set densities would halt progressive succession and facilitate regressive succession. Up to 1990, we observed an equilibrium between progressive and regressive succession. After 1990, however, our data showed a pronounced progressive succession contradicting the hypothesized effect of the livestock grazing. We relate the main observed patterns with two factors linked to rabbit populations: (i) the myxomatosis outbreak in 1954 and (ii) the rabbit Viral Haemorrhagic Disease (rVHD-1) outbreak in 1989. In addition to livestock grazing, rabbits block progressive succession by feeding on seedlings of shrub and tree species and digging burrows, creating small-scale mosaics of bare sand and initiate blowout development when collapsing. We state that the substantial decrease in rabbit numbers due to the viral diseases likely caused the observed increase of shrubs and trees in the study area's permanent plots. Climate change might have contributed to the observed increase in autonomous blowout development since 2001, as well as a decrease in atmospheric nitrogen deposition since 1990, after a strong increase the decades before. [ABSTRACT FROM AUTHOR]

Published

2023

2. Is livestock grazing a key factor for changing vegetation patterns in lime rich coastal dunes in the Netherlands?

Author

van der Hagen, Harrie G. J. M., Assendorp, Dan, Calame, Wim, van der Meulen, Frank, Sýkora, Karlè V., and Schaminée, Joop H. J.

Subjects

VEGETATION patterns, VEGETATION dynamics, SAND dunes, LIVESTOCK, HIPPOPHAE rhamnoides, SHRUBS, ALNUS glutinosa

Abstract

In 1990, livestock grazing was introduced in Meijendel, a 1800 ha lime-rich coastal dune area, at a density of 0.06–0.07 LLU.ha-1.year−1 (1:12–18 ha) to counteract encroachment of tall grasses and shrubland on dune grassland and increase the bare sand area. Monitoring was based on four digital orthophotos (1975–1990–2001-2009) with a high spatial resolution (pixel size 25 × 25 cm). The changes were tested using Generalized Estimating Equations. Habitat changes occurred, but contradicting our hypothesis, there was no significant impact from the grazing on bare sand, grassland or shrubland within 11 and 19 years post livestock introduction. (1) After several decennia of decreasing bare sand, there was a significant increase between 2001 and 2009, irrespective of livestock presence. (2) The changes in grasslands and shrublands are independent of the livestock, but dependent on distance to the coast. (3) Bare sand and shrub cover determine the space left for the dune grasslands. It appears other factors than livestock grazing must have induced the changes. Changes in climate conditions and nitrogen load might have stimulated bare sand. An interaction with the end of Marram planting in 1990 cannot be concluded from available data. The disease-led reduction of rabbit grazing from the mid-1950s led to an expansion of the dominant shrub Hippophae rhamnoides. However, Hippophae shrubland typically regresses to grasslands on its collapse after 25–40 years. Tree species like Crataegus, Betula and Quercus will gradually dominate the landscape for far longer. Active removal of these indigenous species is necessary to prevent future loss of dune grasslands. [ABSTRACT FROM AUTHOR]

Published

2020

3. Museum specimens reveal loss of pollen host plants as key factor driving wild bee decline in The Netherlands.

Author

Scheper, Jeroen, Reemer, Menno, van Kats, Ruud, Ozinga, Wim A., van der Linden, Giel T. J., Schaminée, Joop H. J., Siepel, Henk, and Kleijn, David

Subjects

POLLEN, HOST plants, COLONY collapse disorder of honeybees, INSECT populations

Abstract

Evidence for declining populations of both wild and managed bees has raised concern about a potential global pollination crisis. Strategies to mitigate bee loss generally aim to enhance floral resources. However, we do not really know whether loss of preferred floral resources is the key driver of bee decline because accurate assessment of host plant preferences is difficult, particularly for species that have become rare. Here we examine whether population trends of wild bees in The Netherlands can be explained by trends in host plants, and how this relates to other factors such as climate change. We determined host plant preference of bee species using pollen loads on specimens in entomological collections that were collected before the onset of their decline, and used atlas data to quantify population trends of bee species and their host plants. We show that decline of preferred host plant species was one of two main factors associated with bee decline. Bee body size, the other main factor, was negatively related to population trend, which, because larger bee species have larger pollen requirements than smaller species, may also point toward food limitation as a key factor driving wild bee loss. Diet breadth and other potential factors such as length of flight period or climate change sensitivity were not important in explaining twentieth century bee population trends. These results highlight the species-specific nature of wild bee decline and indicate that mitigation strategies will only be effective if they target the specific host plants of declining species. [ABSTRACT FROM AUTHOR]

Published

2014

4. Expansion of acidophytic late-successional bryophytes in Dutch fens between 1940 and 2000.

Author

Paulissen, Maurice P.C.P., Schaminée, Joop H.J., During, Heinjo J., Wieger Wamelink, G.W., Verhoeven, Jos T.A., and Ejrnæs, Rasmus

Subjects

*FENS, *BRYOPHYTE ecology, *LOGISTIC regression analysis, *AMMONIUM & the environment

Abstract

Question How did frequency and local abundance of key bryophytes in Dutch fens change between 1940 and 2000? Location The Netherlands. Methods A total of 1939 vegetation relevés, objectively assigned to the class Parvocaricetea and dating from the period 1940-1999 inclusive, were extracted from a national Netherlands database. From this relevé set, two additional data sets were derived; these were syntaxonomically homogeneous at the association level. One contained 418 Scorpidio-Caricetum diandrae relevés and the other 956 Pallavicinio-Sphagnetum relevés. The following analyses were done for these three data sets: frequency and local abundance change of 13 bryophyte species over three 20-yr periods were described using logistic regression and the nonparametric Jonckheere-Terpstra test, respectively. Results Acidophytic, late-successional species, notably Sphagnum palustre and Polytrichum uliginosum, have replaced relatively early-successional species such as brown mosses, Sphagnum subnitens and Sphagnum squarrosum during the studied period. The results were mostly consistent across the three data sets. Local abundance patterns generally paralleled those of frequency, although cover trends were often less robust. Conclusions Drastic changes have taken place in the bryophyte layer of Dutch fens between 1940 and 2000. Our study has shown that acidophytic, late-successional bryophytes have replaced relatively early-successional brown moss and Sphagnum species. Both hydrological changes and nutrient shifts (in particular phosphorus enrichment and ammonium toxicity) appear to have been responsible for the observed rapid shifts in the bryophyte layer of Dutch fens. [ABSTRACT FROM AUTHOR]

Published

2014

5. Spatio-temporal dynamics of the invasive plant species Elytrigia atherica on natural salt marshes.

Author

Veeneklaas, Roos M., Dijkema, Kees S., Hecker, Norbert, Bakker, Jan P., and Schaminée, Joop

Subjects

SOIL chronosequences, EUTROPHICATION, VEGETATION management, ATMOSPHERIC deposition, SALT marshes

Abstract

Question In the past decades, the tall native invasive grass, Elytrigia atherica, has been increasing in frequency and dominance on salt marshes along the Wadden Sea coast. Is this rapid expansion an outcome of natural succession or is it driven by anthropogenic eutrophication resulting from atmospheric deposition? Location Salt marshes on four back-barrier islands, Wadden Sea on the coast of the Netherlands and Germany. Methods We used a combination of time series of vegetation maps and chronosequence data of four naturally developed salt marshes to address our questions. These salt marshes have not been grazed by livestock or subject to other management regimes. By comparing development within and between four different salt marshes, we were able to study the spatial and temporal dynamics of the community dominated by E. atherica on natural salt marshes. Results The expansion rate of the E. atherica community was highest on young salt marshes (up to 30 yr old) with vertical accretion rates of 0.35 cm·yr−1. The rate of expansion decreased on older marshes and the direction reversed, becoming negative, on the oldest marshes (around 90 yr old), which have no vertical accretion and are under waterlogged conditions. Conclusions The expansion of E. atherica on natural, back-barrier islands along the Wadden Sea coast is more influenced by the age of the salt marsh and patterns in vertical accretion of soil than by uniformly spread atmospheric deposition. [ABSTRACT FROM AUTHOR]

Published

2013

6. Factors relating to regional and local success of exotic plant species in their new range.

Author

Speek, Tanja A. A., Lotz, Lambertus A. P., Ozinga, Wim A., Tamis, Wil L. M., Schaminée, Joop H. J., and van der Putten, Wim H.

Subjects

INTRODUCED plants, PLANT species, PLANT invasions, PLANT communities, PLANT diversity, PLANT conservation

Abstract

To estimate invasiveness of exotic plant species, many studies have used the frequency of occurrence within a defined region. This measure is informative on how widespread exotics are, however, it does not inform on their local dominance, which is crucial for conservation of biodiversity and ecosystem functioning. The aim of the present study is to determine if regional frequency of occurrence of exotic plant species indeed is indicative of their local dominance. We also determined which plant traits and other factors predict regional and local frequencies best. The Netherlands. We used information on exotic plant species established in The Netherlands and compared traits relating to their frequency of occurrence regionally (the entire country) and their frequency of dominance locally (in 1-100 m quadrats). We created minimal adequate models with factors explaining regional frequency and frequency of local dominance of 111 exotic plant species in The Netherlands. The model that used plant traits to explain regional frequency of exotic plant species differed from the models that best explained their frequency of local dominance. Regionally, the factors that correlated with frequency were: life form, height, polyploidy, length of flowering season, residence time, human use and origin. The factors that correlated to frequency of local dominance were lateral vegetative spread and residence time. We conclude that plant traits relating to the regional frequency of exotic plant species differ from those that relate to their frequency of local dominance. The implication of our results is that predictive studies on plant invasiveness based on regional frequencies may not be indicative of the local impacts. Since the prediction of local impacts is crucial for conservation and risk assessment, our study emphasized the need for better information on the local abundance of exotic invaders. [ABSTRACT FROM AUTHOR]

Published

2011

7. Use of the ecological information system SynBioSys for the analysis of large datasets.

Author

Schaminée, Joop H. J., Hennekens, Stephan M., and Ozinga, Wim A.

Subjects

*VEGETATION surveys, *EUTROPHICATION, *INFORMATION resources, *BIOTIC communities, *DATA mining, *DATABASES, *COMPUTER network resources, *VEGETATION management

Abstract

The rapid developments in computer techniques and the availability of large datasets open new perspectives for vegetation analysis aiming at better understanding of the ecology and functioning of ecosystems and underlying mechanisms. Information systems prove to be helpful tools in this new field. Such information systems may integrate different biological levels, viz. species, community and landscape. They incorporate a GIS platform for the visualization of the various layers of information, enabling the analysis of patterns and processes which relate the individual levels. An example of a newly developed information system is SynBioSys Europe, an initiative of the European Vegetation Survey (EVS). For the individual levels of the system, specific sources are available, notably national and regional Turboveg databases for the community level and data from the recently published European Map of Natural Vegetation for the landscape level. The structure of the system and its underlying databases allow user-defined queries. With regard to its application, such information systems may play a vital role in European nature planning, such as the implementation the EU-program Natura 2000. To illustrate the scope and perspectives of the program, some examples from The Netherlands are presented. They are dealing with long-term changes in grassland ecosystems, including shifts in distribution, floristic composition, and ecological indicator values. [ABSTRACT FROM AUTHOR]

Published

2007

8. Local above-ground persistence of vascular plants: Life-history trade-offs and environmental constraints.

Author

Ozinga, Wim A., Hennekens, Stephan M., Schaminée, Joop H. J., Smits, Nina A. C., Bekker, Renée M., Römermann, Christine, Klimeš, Leoš, Bakker, Jan P., and van Groenendael, Jan M.

Subjects

ECOLOGICAL research, BOTANY, EXTINCTION of plants, VEGETATION management, BIOLOGY, SOIL seed banks, PLANT dispersal, AGRICULTURAL productivity

Abstract

Questions: 1. Which plant traits and habitat characteristics best explain local above-ground persistence of vascular plant species and 2. Is there a trade-off between local above-ground persistence and the ability for seed dispersal and below-ground persistence in the soil seed bank? Locations: 845 long-term permanent plots in terrestrial habitats across the Netherlands. Methods: We analysed the local above-ground persistence of vascular plants in permanent plots (monitored once a year for ca. 16 year) with respect to functional traits and habitat preferences using survival statistics (Kaplan-Meier analysis and Cox' regression). These methods account for censored data and are rarely used in vegetation ecology. Results: Local above-ground persistence is determined by both functional traits (especially the ability to form long-lived clonal connections) and habitat preferences (especially nutrient requirements). Above-ground persistence is negatively related to the ability for dispersal by wind and to the ability to accumulate a long-term persistent soil seed bank (‘dispersal through time’) and is positively related to the ability for dispersal by water. Conclusions: Most species have a half-life expectation over 15 years, which may contribute to time lags after changes in habitat quality or -configuration (‘extinction debt’). There is evidence for a trade-off relationship between local above-ground persistence and below-ground seed persistence, while the relationship with dispersal in space is vector specific. The rate of species turnover increases with productivity. [ABSTRACT FROM AUTHOR]

Published

2007

9. Phylogenetically poor plant communities receive more alien species, which more easily coexist with natives.

Author

Gerhold P, Pärtel M, Tackenberg O, Hennekens SM, Bartish I, Schaminée JH, Fergus AJ, Ozinga WA, and Prinzing A

Subjects

Environment, Netherlands, Phylogeny, Phylogeography, Regression Analysis, Biodiversity, Introduced Species, Plants

Abstract

Alien species can be a major threat to ecological communities, but we do not know why some community types allow the entry of many more alien species than do others. Here, for the first time, we suggest that evolutionary diversity inherent to the constituent species of a community may determine its present receptiveness to alien species. Using recent large databases from observational studies, we find robust evidence that assemblage of plant community types from few phylogenetic lineages (in plots without aliens) corresponds to higher receptiveness to aliens. Establishment of aliens in phylogenetically poor communities corresponds to increased phylogenetic dispersion of recipient communities and to coexistence with rather than replacement of natives. This coexistence between natives and distantly related aliens in recipient communities of low phylogenetic dispersion may reflect patterns of trait assembly. In communities without aliens, low phylogenetic dispersion corresponds to increased dispersion of most traits, and establishment of aliens corresponds to increased trait concentration. We conclude that if quantified across the tree of life, high biodiversity correlates with decreasing receptiveness to aliens. Low phylogenetic biodiversity, in contrast, facilitates coexistence between natives and aliens even if they share similar trait states.

Published

2011