Abstract
In many parts of the world, the magnitude and frequency of cold-season precipitation are expected to increase in the near future. This will result in an increased magnitude and duration of winter and spring flooding by rain-fed streams and rivers. Such climate-driven increases in flooding are likely to affect riparian plant communities, but future vegetation changes are hard to predict due to current lack of data. To fill this knowledge gap, we experimentally modified the hydrology of five streams across three countries in north-western Europe during late winter/early spring over a period of 3years. We assessed the responses in riparian plant species richness, biomass, plant-available nitrogen and phosphorus and seed deposition to increased flooding depth (+18cm on average at the lowest positions along the riparian gradient) and prolonged flooding duration (6weeks on average). After 3years of increased flooding, there was an overall decline in riparian species richness, while riparian plant biomass increased. Extractable soil nitrogen and phosphorus also increased and are likely to have contributed to the increased biomass. Increased flooding resulted in the arrival of more seeds of additional species to the riparian zone, thereby potentially facilitating the shifts in riparian plant species composition we observed. The results of our concerted experimental effort demonstrate that changes in stream riparian plant communities can occur rapidly following increased winter flooding, leading to strong reductions in plant species diversity.
Highlights
The magnitude and frequency of intense precipitation events are expected to increase in many parts of the world in the near future (Bates, Kundzewicz, Wu, & Palutikof, 2008; IPCC, 2007), and, risks of stream and river flooding are projected to rise (Dankers & Feyen, 2009; Hirabayashi et al, 2013)
Our field experiment demonstrated that increased duration and depth of late winter/early spring flooding already affect the riparian vegetation in only 3 years of manipulation
At the lowest elevations along the riparian gradient, a shift in species composition was detected towards species more characteristic of regularly flooded, “wetter” conditions, such as for instance Equisetum arvensis, Stachys palustris, Typha latifolia and Scirpus sylvaticus
Summary
The magnitude and frequency of intense precipitation events are expected to increase in many parts of the world in the near future (Bates, Kundzewicz, Wu, & Palutikof, 2008; IPCC, 2007), and, risks of stream and river flooding are projected to rise (Dankers & Feyen, 2009; Hirabayashi et al, 2013). Riparian ecosystems are of great ecological importance because they are characterized by high biodiversity and provide several important ecosystem services, including the storage and purification of water and the provisioning of spawning habitat for fish (Capon et al, 2013; Naiman & Decamps, 1997; Naiman, Decamps, & Pollock, 1993; Richardson et al, 2007; Verhoeven, Arheimer, Yin, & Hefting, 2006) Their high plant diversity is caused by strong environmental gradients (Naiman et al, 1993): Riparian plant communities are structured across the riparian zone according to differences in the specific niches of the species, based on hydrology and soil properties (Fraaije, ter Braak, Verduyn, Breeman, et al, 2015; Silvertown, Dodd, Gowing, & Mountford, 1999; Stro€m, Jansson, Nilsson, Johansson, & Xiong, 2011) and on the differential arrival of plant seeds with rising and falling water levels (Fraaije, ter Braak, Verduyn, Verhoeven, & Soons, 2015; Soons et al, 2016). We conducted this field experiment to investigate the following: (1) the overall responses in riparian plant species richness, composition, biomass, seed arrival and plant-available N and P to increased flooding duration and water depth, (2) the environmental variables that correlate with changes in species composition, and (3) the extent to which seed deposition results in the arrival of new species and contributes to species turnover
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