Abstract. The impacts of changes in ozone precursor emissions as well as climate change on the future ozone exposure of the vegetation in Europe were investigated. The ozone exposure is expressed as AOT40 (Accumulated exposure Over a Threshold of 40 ppb O 3 ) as well as POD Y (Phytotoxic Ozone Dose above a threshold Y ). A new method is suggested to express how the length of the period during the year when coniferous and evergreen trees are sensitive to ozone might be affected by climate change. Ozone precursor emission changes from the RCP4.5 scenario were combined with climate simulations based on the IPCC SRES A1B scenario and used as input to the Eulerian Chemistry Transport Model MATCH from which projections of ozone concentrations were derived. The ozone exposure of vegetation over Europe expressed as AOT40 was projected to be substantially reduced between the periods 1990-2009 and 2040-2059 to levels which are well below critical levels used for vegetation in the EU directive 2008/50/EC as well as for crops and forests used in the LRTAP convention, despite that the future climate resulted in prolonged yearly ozone sensitive periods. The reduction in AOT40 was mainly driven by the emission reductions, not changes in the climate. For the toxicologically more relevant POD 1 index the projected reductions were smaller, but still significant. The values for POD 1 for the time period 2040-2059 were not projected to decrease to levels which are below critical levels for forest trees, represented by Norway spruce. This study shows that substantial reductions of ozone precursor emissions have the potential to strongly reduce the future risk for ozone effects on the European vegetation, even if concurrent climate change promotes ozone formation.
Ongoing urban exploitation is increasing pressure to transform urban green spaces, while there is increasing awareness that greenery provides a range of important benefits to city residents. In efforts to help resolve associated problems we have developed a framework for integrated assessments of ecosystem service (ES) benefits and values provided by urban greenery, based on the ecosystem service cascade model. The aim is to provide a method for assessing the contribution to, and valuing, multiple ES provided by urban greenery that can be readily applied in routine planning processes. The framework is unique as it recognizes that an urban greenery comprises several components and functions that can contribute to multiple ecosystem services in one or more ways via different functional traits (e.g. foliage characteristics) for which readily measured indicators have been identified. The framework consists of five steps including compilation of an inventory of indicator; application of effectivity factors to rate indicators' effectiveness; estimation of effects; estimation of benefits for each ES; estimation of the total ES value of the ecosystem. The framework was applied to assess ecosystem services provided by trees, shrubs, herbs, birds, and bees, in green areas spanning an urban gradient in Gothenburg, Sweden. Estimates of perceived values of ecosystem services were obtained from interviews with the public and workshop activities with civil servants. The framework is systematic and transparent at all stages and appears to have potential utility in the existing spatial planning processes.
Birds that are foraging in tree canopies can cause a substantial decrease in arthropod numbers. Trees may benefit from avian insectivores attacking insect herbivores. In a field study, we tested whether the intensity of bird predation on caterpillars is linked quantitatively to leaf damage caused by insect herbivores, a hypothesized relationship that previously was poorly investigated. Artificial caterpillars were placed in the lower part of oak trees (Quercus robur) in urban and suburban sites across the city of Gothenburg, Sweden. Two days later, we recorded the survival: the pooled predation rate was 11.5% (5.7% day−1). Mean predation rate per tree was 10.4%. Mean leaf damage, i.e. leaf area eaten by insect herbivores, per tree was 5.7% but there was large variation between trees. We found a significant negative relationship between survival probability of caterpillars and leaf damage in an analysis using a mixed model logistic regression. This suggests that caterpillars are at high risk of bird attacks in trees with a high degree of leaf damage and avian insectivores may increase the foraging effort in the foliage of such oak trees. Our findings concerning the quantitative relationship between the predator–prey interactions and plant damage suggested tentatively that the survival probability of caterpillars decreases rapidly at 15–20% leaf damage in lower part of oak canopies. Furthermore, our findings add credence to the idea of using artificial caterpillars as a means to obtain standardized comparisons of predation rates in various habitats.Electronic supplementary materialThe online version of this article (10.1007/s00442-018-4234-z) contains supplementary material, which is available to authorized users.
Abstract. Mercury, Hg, is one of the most problematic metals from
an environmental perspective. To assess the problems caused by Hg in the
environment, it is crucial to understand the processes of Hg biogeochemistry,
but the exchange of Hg between the atmosphere and vegetation is not
sufficiently well characterized. We explored the mercury concentration,
[Hg], in foliage from a diverse set of plant types, locations and sampling
periods to study whether there is a continuous accumulation of Hg in
leaves and needles over time. Measurements of [Hg] were made for deciduous and
conifer trees in Gothenburg, Sweden (botanical garden and city area), as well
as for evergreen trees in Rwanda. In addition, data for wheat from an ozone
experiment conducted at Östad, Sweden, were included. Conifer data were
quantitatively compared with literature data. In every case where older
foliage was directly compared with younger, [Hg] was higher in older tissue.
Covering the range from the current year up to 4-year-old needles in the
literature data, there was no sign of Hg saturation in conifer needles with
age. Thus, over timescales of approximately 1 month to several years, the
Hg uptake in foliage from the atmosphere always dominated over Hg evasion.
Rwandan broadleaved trees had generally older leaves due to lack of seasonal
abscission and higher [Hg] than Swedish broadleaved trees. The significance
of atmospheric Hg uptake in plants was shown in a wheat experiment where
charcoal-filtrated air led to significantly lower leaf [Hg]. To search for
general patterns, the accumulation rates of Hg in the diverse set of tree
species in the Gothenburg area were related to the specific leaf area (SLA).
Leaf-area-based [Hg] was negatively and non-linearly correlated with SLA,
while mass-based [Hg] had a somewhat weaker positive relationship with SLA.
An elaborated understanding of the relationship behind [Hg] and SLA may have
the potential to support large-scale modelling of Hg uptake by vegetation
and Hg circulation.
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