Your search keyword '"Hidding, Bert"' showing total 9 results

1. Synergy between shading and herbivory triggers macrophyte loss and regime shifts in aquatic systems.

Author

Hidding, Bert, Bakker, Elisabeth S., Hootsmans, Michiel J. M., and Hilt, Sabine

Subjects

*MACROPHYTES, *ECOLOGICAL regime shifts, *AQUATIC ecology, *HERBIVORES, *BIODIVERSITY, *EUTROPHICATION

Abstract

Macrophytes play a keystone role in shallow aquatic ecosystems. In lakes, macrophytes stabilize clear-water conditions with high biodiversity and their decline can cause a shift to a turbid state with lower biodiversity. Various mechanisms have been suggested as triggers of macrophyte collapse. Herbivory by waterfowl and fish seems to be one of the obvious factors, but the response of macrophytes to herbivory is ambiguous. We hypothesized that herbivory alone does not typically cause macrophyte collapse, but that shading from periphyton can enhance the effect of herbivores. Shading of macrophytes is supposed to increase with eutrophication due to changes in the top-down control cascading from fish via macroinvertebrates to periphyton. We elaborated on this idea by fitting a macrophyte growth model with different herbivore grazing and periphyton shading scenarios. In addition, we performed a meta-analysis on existing experimental herbivore exclosure studies with respect to periphyton growth. The model supported our proposed hypothesis and the reviewed field studies appeared to point in the same direction. We suggest that a significant herbivore impact may indicate a reduced resilience of vegetation to eutrophication, making it an early warning signal for an imminent macrophyte collapse leading to a sudden shift of the system to turbid conditions. [ABSTRACT FROM AUTHOR]

Published

2016

2. The effect of herbivores on genotypic diversity in a clonal aquatic plant.

Author

Hidding, Bert, Meirmans, Patrick G., Klaassen, Marcel, de Boer, Thijs, Ouborg, N. J. (Joop), Wagemaker, C. A. M. (Niels), and Nolet, Bart A.

Subjects

*HERBIVORES, *AQUATIC plants, *SEEDS, *COMPETITION (Biology), *SAGO pondweed

Abstract

In clonal plants, vegetative parts may outcompete seeds in the absence of disturbance, limiting the build-up of genotypic diversity through repeated seedling recruitment (RSR). Herbivory may provide disturbance and trigger establishment of strong colonizers (seeds) at the expense of strong competitors (clonal propagules). In the clonal aquatic fennel pondweed Potamogeton pectinatus, two distinct herbivore guilds may modify the dynamics of propagation. In winter, Bewick's swans may deplete patches of tubers, promoting seedling establishment in spring. In summer, seed consumption by waterfowl can reduce the density of viable seeds but grazing may also reduce tuber production and hence facilitate seedling establishment. Th is study is among the fi rst to experimentally test herbivore impact on plant genotypic diversity. We assess the separate and combined eff ects of both herbivore guilds on genotypic diversity and structure of fennel pondweed beds. Using microsatellites, we genotyped P. pectinatus from an exclosure experiment and assessed the contribution of herbivory, dispersal and sexual reproduction to the population genetic structure. Despite the predominance of clonal propagation in P. pectinatus, we found considerable genotypic diversity. Within the experimental blocks, kinship among genets decreased with geographic distance, clearly identifying a role for RSR in the maintenance of genotypic diversity within the fennel pondweed beds. However, over a period of fi ve years, none of the herbivory treatments aff ected genotypic diversity. Hence, sexual reproduction on a local scale is important in this putatively clonal plant and possibly sufficient to ensure a relatively high genotypic diversity even in the absence of herbivores. Although we cannot preclude a role of herbivory in shaping genotypic diversity of a clonal plant, after fi ve years of exclusion of the two investigated herbivore guilds no measurable eff ect on genotypic diversity was detected. [ABSTRACT FROM AUTHOR]

Published

2014

3. Flooding tolerance and horizontal expansion of wetland plants: Facilitation by floating mats?

Author

Hidding, Bert, Sarneel, Judith M., and Bakker, Elisabeth S.

Subjects

*FLOODS, *WETLAND plants, *STRATIOTES aloides, *PLANT growth, *PLANT nutrition, *PLANT physiology

Abstract

Highlights: [•] Wetland plants were exposed to flooding treatments in experimental ponds. [•] Growth and expansion were measured in relation to Stratiotes aloides and nutrients. [•] Flooding negatively affected creeping plant species that happen to be rare. [•] Flooding had no negative impact on tall and common reedy species. [•] No short-term effect of S. aloides and variable effects of nutrient availability. [ABSTRACT FROM AUTHOR]

Published

2014

4. A large herbivore triggers alternative successional trajectories in the boreal forest.

Author

Hidding, Bert, Tremblay, Jean-Pierre, and Côté, Steeve D.

Subjects

*HERBIVORES, *FOREST regeneration, *TAIGA ecology, *BIOTIC communities, *GRASSES, *ECOSYSTEMS

Abstract

Alternative successional trajectories (AST) may result in multiple climax states within an ecosystem when disturbances affect colonization history. In the boreal forest, ungulates have been proposed to drive AST because, under herbivore pressure, preferred species may go extinct and apparent competition may benefit browsing-resistant species. Over a 15-year period following logging, we tested whether deer herbivory altered plant species composition and whether the competitive advantage of resistant species was maintained following herbivore removal. We compared exclosures built immediately after logging with delayed exclosures built eight years later on Anticosti Island, Quebec, Canada. Although the palatable tree Be tula papyrifera (paper birch) and some palatable herbs recovered in delayed exclosures, we observed legacies in both tree and herb cover. Woody regeneration in delayed exclosures was dominated by Picea glauca (white spruce), and Poaceae (grasses) were abundant in the field layer. Given that only early-successional species recovered, whereas latesuccessional broadleaf species and Abies balsamea (balsam fir) remained rare, succession may follow an AST after a limited browsing period during early succession. [ABSTRACT FROM AUTHOR]

Published

2013

5. How a bottom-dweller beats the canopy: inhibition of an aquatic weed ( Potamogeton pectinatus) by macroalgae ( Chara spp.).

Author

HIDDING, BERT, BREDERVELD, ROBERT J., and NOLET, BART A.

Subjects

*CHAROPHYTA, *WEEDS, *CHARA, *AQUATIC pests, *EXPERIMENTAL design, *PLANT growth, *PLANT development, *CHARACEAE, *PLANT growth-promoting rhizobacteria

Abstract

1. Bottom-dwelling charophytes have been observed to replace canopy-forming pondweeds within a few years in de-eutrophied shallow lakes. Competition for bicarbonate (HCO3−) may explain this shift in vegetation dominance but inhibition of pondweeds by Chara spp. through direct competition has not been shown experimentally. 2. We tested whether charophytes inhibited growth of fennel pondweed ( Potamogeton pectinatus) in the absence of belowground competition by growing plants in pots in mesocosms following a replacement series experimental design. To further understand the role of bicarbonate, we studied main and interactive effects of Chara, light and bicarbonate on P. pectinatus growth in a laboratory study. 3. Early in the mesocosm experiment, high charophyte densities had a negative effect on P. pectinatus cover at a time when bicarbonate levels were low. However, bicarbonate levels eventually converged to low levels in all treatments. At final harvest, both species exhibited lower biomasses at higher densities of conspecific pots, indicating that ultimately intraspecific competition was limiting. In a laboratory study, Chara inhibited P. pectinatus the most under a combination of high light and high bicarbonate concentrations, suggesting that Chara may negatively affect P. pectinatus by acting as a general nutrient sink. 4. Our results suggest that Chara growth can reduce bicarbonate levels, delaying but not preventing a P. pectinatus growth pulse. Given the recorded inhibition under ample bicarbonate supply, Chara’s ability to act as nutrient sink may contribute to the decline of P. pectinatus under Chara recovery in shallow lakes. [ABSTRACT FROM AUTHOR]

Published

2010

6. Above- and below-ground vertebrate herbivory may each favour a different subordinate species in an aquatic plant community.

Author

Hidding, Bert, Nolet, Bart A., De Boer, Thijs, De Vries, Peter P., and Klaassen, Marcel

Subjects

*MACROPHYTES, *WATERFOWL, *TUBERS, *PLANT diversity, *COMPETITION (Biology)

Abstract

At least two distinct trade-offs are thought to facilitate higher diversity in productive plant communities under herbivory. Higher investment in defence and enhanced colonization potential may both correlate with decreased competitive ability in plants. Herbivory may thus promote coexistence of plant species exhibiting divergent life history strategies. How different seasonally tied herbivore assemblages simultaneously affect plant community composition and diversity is, however, largely unknown. Two contrasting types of herbivory can be distinguished in the aquatic vegetation of the shallow lake Lauwersmeer. In summer, predominantly above-ground tissues are eaten, whereas in winter, waterfowl forage on below-ground plant propagules. In a 4-year exclosure study we experimentally separated above-ground herbivory by waterfowl and large fish in summer from below-ground herbivory by Bewick’s swans in winter. We measured the individual and combined effects of both herbivory periods on the composition of the three-species aquatic plant community. Herbivory effect sizes varied considerably from year to year. In 2 years herbivore exclusion in summer reinforced dominance of Potamogeton pectinatus with a concomitant decrease in Potamogeton pusillus, whereas no strong, unequivocal effect was observed in the other 2 years. Winter exclusion, on the other hand, had a negative effect on Zannichellia palustris, but the effect size differed considerably between years. We suggest that the colonization ability of Z. palustris may have enabled this species to be more abundant after reduction of P. pectinatus tuber densities by swans. Evenness decreased due to herbivore exclusion in summer. We conclude that seasonally tied above- and below-ground herbivory may each stimulate different components of a macrophyte community as they each favoured a different subordinate plant species. [ABSTRACT FROM AUTHOR]

Published

2010

7. Compensatory growth in an aquatic plant mediates exploitative competition between seasonally tied herbivores.

Author

Hidding, Bert, Nolet, Bart A., de Boer, Thijs, de Vries, Peter P., and Klaassen, Marcel

Subjects

*AQUATIC plants, *COMPETITION (Biology), *HERBIVORES, *PLANT growth, *BEWICK'S swan, *SAGO pondweed, *PLANT biomass, *WATERFOWL

Abstract

The degree to which vertebrate herbivores exploitatively compete for the same food plant may depend on the level of compensatory plant growth. Such compensation is higher when there is reduced density-dependent competition in plants after herbivore damage. Whether there is relief from competition may largely be determined by the life-history stage of plants under herbivory. Such stage-specific compensation may apply to seasonal herbivory on the clonal aquatic plant sago pondweed (Potainogetonpectinatus L.). It winters in sediments of shallow lakes as tubers that are foraged upon by Bewick's Swans (cygnus columbianus bewickii Yarrell), whereas aboveground biomass in summer is mostly consumed by ducks, coots, and Mute Swans. Here, tuber predation may be compensated due to diminished negative density dependence in the next growth season. However, we expected lower compensation to summer herbivory by waterfowl and fish as density of aboveground biomass in summer is closely related to photosynthetic carbon fixation. In a factorial exclosure study we simultaneously investigated (1) the effect of summer herbivory on aboveground biomass and autumn tuber biomass and (2) the effect of tuber predation in autumn on aboveground biomass and tuber biomass a year later. Summer herbivory strongly influenced belowground tuber biomass in autumn, limiting food availability to Bewick's Swans. In contrast, tuber predation in autumn by Bewick's Swans had a limited and variable effect on P. pectinatus biomass in the following growth season. Whereas relief from negative density dependence largely eliminates effects of belowground herbivory by swans, aboveground herbivory in summer limits both above- and belowground plant biomass. Hence, there was an asymmetry in exploitative competition, with herbivores in summer reducing food availability for belowground herbivores in autumn, but not the other way around. [ABSTRACT FROM AUTHOR]

Published

2009

8. Burial depth distribution of fennel pondweed tubers (Potamogeton pectinatus) in relation to foraging by Bewick's swans

Author

Hidding, Bert, Nolet, Bart A., van Eerden, Mennobart R., Guillemain, Matthieu, and Klaassen, Marcel

Subjects

*GENETIC research, *PHENOTYPIC plasticity, *DEFORMATIONS (Mechanics), *PLANT stems

Abstract

Abstract: Deep burial in the sediment of tubers of fennel pondweed (Potamogeton pectinatus) has been explained in terms of avoidance by escape against consumption by Bewick''s swans (Cygnus columbianus bewickii) in autumn. We therefore expected changes in foraging pressure to ultimately result in a change in the tuber distribution across sediment depth. A trade-off underlies this idea: deep tubers are less accessible to swans but must be larger to meet the higher energy demands of sprouting in spring. To test this prediction, we compared tuber burial depth over a gradient of foraging pressure both across space and across time. Tuber samples were obtained after aboveground plant senescence but before arrival of Bewick''s swans. First, we compared the current tuber bank depth profile in a shallow lake with high foraging pressure, the Lauwersmeer, with that in two wetlands with moderate and low foraging pressure. Second, we compared the current tuber burial in the Lauwersmeer with that in the early 1980s when exploitation by swans had just started there. In accordance with our hypothesis, we found significantly deeper burial of tubers under high consumption risk compared to low consumption risk, both when comparing sites and comparing time periods. Since tubers in effect only survive to the next spring, the observed differences in burial depth among sites and over time cannot be a direct result of tuber losses due to consumption by swans. Rather, these observations suggest adaptive responses in tuber burial related to foraging pressure from Bewick''s swans in the recent past. We thus propose that fennel pondweed exhibits flexible avoidance by escape, of a kind rarely described for plants, where both phenotypic plasticity and genotype sorting may contribute to the observed differences in tuber burial. [Copyright &y& Elsevier]

Published

2009

9. Optimal foraging and risk of claw damage: How flexible are shore crabs in their prey size selectivity?

Author

Smallegange, Isabel M., Hidding, Bert, Eppenga, Janneke M.A., and van der Meer, Jaap

Subjects

*CARCINUS maenas, *FORAGING behavior, *PREDATORY animals, *ANIMAL behavior, *ANIMAL feeding behavior, *MARINE biology, *MUSSELS, *PREDATION, CRAB behavior

Abstract

Abstract: Understanding the behavioural mechanisms that underlie prey size preference of predators is an essential component of unravelling the processes that govern predator-prey dynamics. In marine systems, despite being able to consume larger and more profitable prey, many molluscivorous predators show a preference for smaller, less profitable prey, most likely to minimize the risk of damaging feeding extremities. Here we assessed the flexibility of this prey size preference. We observed that shore crabs (Carcinus maenas) that were food deprived, and which were offered mussels (Mytilus edulis) of different sizes in dichotomous preference tests, preferred smaller, less profitable mussels. The same result was observed for crabs foraging with a conspecific competitor. Only crabs that were conditioned to feed on the larger, most profitable mussels shifted their prey size preference and ranked the most profitable mussels as highest. Although shore crabs showed flexibility in prey size preference, through which they would be able to cope with environmental variability, our results in general emphasize preference for smaller prey. We discuss the possibility that crabs maximize their long-term feeding rate, in which case it can be optimal to select these smaller mussels. [Copyright &y& Elsevier]

Published

2008