Your search keyword '"Roininen, Heikki"' showing total 7 results

1. Insect herbivore damage on latitudinally translocated silver birch ( Betula pendula) - predicting the effects of climate change.

Author

Heimonen, Kaisa, Valtonen, Anu, Kontunen-Soppela, Sari, Keski-Saari, Sarita, Rousi, Matti, Oksanen, Elina, and Roininen, Heikki

Subjects

EUROPEAN white birch, HERBIVORES, INSECT-plant relationships, TREES & climate, TAIGAS, GROWING season

Abstract

Boreal forests might be challenged by increased herbivory pressure in the future due to global warming, since warming is predicted to increase the abundance of herbivorous insects and to lead to shifts in their distribution towards higher latitudes where they might face more palatable food sources. We studied the effect of the latitudinal translocation of silver birch ( Betula pendula Roth) on herbivore damage to 26 micropropagated genotypes originating from six populations ranging from 60 to 67°N in Finland in two growing seasons, 2011 and 2012. The genotypes were planted at three sites located in southern (60°N), central (62°N) and northern (67°N) Finland. The genotypes translocated to lower latitudes from their latitudes of origin were experiencing higher intensity of herbivore damage compared to the genotypes translocated to higher latitudes in 2011, but not in 2012. All genotypes were experiencing herbivore damage by local herbivores of each study site. These results suggest that, as many herbivore species are predicted to shift their ranges towards higher latitudes, they can feed on novel host plant genotypes and may face more palatable food sources than at their present range. This suggests that future climate change will increase herbivore damage to young silver birch. Increased herbivory, in turn, might affect the growth of birch and therefore should be considered when making predictions about the boreal forest composition in the future. [ABSTRACT FROM AUTHOR]

Published

2015

2. Is climate warming more consequential towards poles? The phenology of Lepidoptera in Finland.

Author

Valtonen, Anu, Leinonen, Reima, Pöyry, Juha, Roininen, Heikki, Tuomela, Jukka, and Ayres, Matthew P.

Subjects

CLIMATE change, GLOBAL warming, LEPIDOPTERA, PHENOLOGY, BIOCLIMATOLOGY

Abstract

The magnitude and direction of phenological shifts from climate warming could be predictably variable across the planet depending upon the nature of physiological controls on phenology, the thermal sensitivity of the developmental processes and global patterns in the climate warming. We tested this with respect to the flight phenology of adult nocturnal moths (3.33 million captures of 334 species) that were sampled at sites in southern and northern Finland during 1993-2012 (with years 2005-2012 treated as an independent model validation data set). We compared eight competing models of physiological controls on flight phenology to each species and found strong support for thermal controls of phenology in 66% of the species generations. Among species with strong thermal control of phenology in both the south and north, the average development rate was higher in northern vs. southern populations at 10 °C, but about the same at 15 and 20 °C. With a 3 °C increase in temperature (approximating A2 scenario of IPPC for 2090-2099 relative to 1980-1999) these species were predicted to advance their phenology on average by 17 (SE ± 0.3) days in the south vs. 13 (±0.4) days in the north. The higher development rates at low temperatures of poleward populations makes them less sensitive to climate warming, which opposes the tendency for stronger phenological advances in the north from greater increases in temperature. [ABSTRACT FROM AUTHOR]

Published

2014

3. Retention of wind-felled trees and the risk of consequential tree mortality by the European spruce bark beetle Ips typographus in Finland.

Author

Eriksson, Miikka, Neuvonen, Seppo, and Roininen, Heikki

Subjects

IPS typographus, TREES, WINDFALL (Forestry), EFFECT of wind on plants, TREE injuries, FOREST protection, PRUNING, REGENERATION (Botany), PLANT health

Abstract

Autumn storms felled about 7 million m3 of forest in southern Finland in 2001. Windthrow area and timber characteristics, as well as numbers of standing spruce trees attacked and killed by Ips typographus, were recorded in 61 Norway spruce [Picea abies (L.) Karst.]-dominated windthrow areas. Generalized linear models were used to identify significant variables predicting the risk for consequential tree mortality by I. typographus. None of the windthrow areas with fewer than 20 wind-felled spruce trees (WFS) (n=28) and only half of the areas with 20 or more WFS (n=33) harboured trees killed by I. typographus during the years 2003-2005. The quantity and diameter of WFS and the basal area of recently dead standing spruce trees correlated positively with the risk of tree deaths. This study indicates that in Finland, at endemic I. typographus population levels, it is safe to leave fewer than 20 WFS in managed forests. Retention of even larger quantities of trees does not seem to evoke significant numbers of consequential tree deaths by I. typographus in managed forests. However, in stands where the natural mortality of spruce trees is high, the risks of consequential tree deaths after wind disturbance will also be higher. [ABSTRACT FROM AUTHOR]

Published

2007

4. Willow bud and shoot foraging by ptarmigan in relation to snow level in NW Finnish Lapland.

Author

Hakkarainen, Helena, Virtanen, Risto, Honkanen, Jani, and Roininen, Heikki

Subjects

BUDS, TWIGS, PLANT shoots, SNOW

Abstract

Willow buds and twigs compose the main part of the willow ptarmigan’s ( Lagopus lagopus) diet during winter. This study evaluated how position of willow ramets in relation to snow level affects the browsing of willow ptarmigan in NW Finland. Ramet position in relation to snow level affected the browsing intensity of willow ptarmigan: 5% of shoots were cut and more than 8% of buds were eaten by willow ptarmigan when ramet was staked at the maximum snow level, whereas ramets bent down were unbrowsed and browsing of ramets staked upright was negligible. Browsing significantly decreased the number of vegetative buds and catkins. The results show that snow level and ramet characteristics are important determinants of willow ptarmigan foraging. [ABSTRACT FROM AUTHOR]

Published

2007

5. Negative impact of leaf gallers on arctic-alpine dwarf willow, Salix herbacea.

Author

Hakkarainen, Helena, Roininen, Heikki, and Virtanen, Risto

Subjects

WILLOWS, SAWFLIES, HYMENOPTERA, PLANT-pathogen relationships, LEAF diseases & pests

Abstract

According to available evidence, leaf gallers have only minor impacts on their plant hosts. We hypothesised that the relatively large leaf gallers formed by Eupontania sawflies on small, creeping arctic-alpine willows have a strong influence on their host plants. In this study, we specifically tested the effects of leaf galler ( Eupontania aquilonis) on the survival and growth of dwarf willow ( Salix herbacea) in a mountain snow-bed in northern Finland. We marked galled, leaves-removed and untreated ramets in experimental blocks. In the following year, we measured the growth and survival of the ramets. The mortality of galled shoots was approx. 40% higher, and the mortality of galled ramets approx. 25% higher than in the control ramets and in the leaf-removal treatment. The leaf biomass of galled ramets and the number of leaves were significantly less in galled ramets than in untreated or leaves-removed ramets. It is possible that galling causes fatal resource depletion of shoots in its host plant. The results show that leaf gallers are ecologically more influential than previously thought. [ABSTRACT FROM AUTHOR]

Published

2005

6. Northward invasion of the parasitic deer ked ( Lipoptena cervi), is there geographical variation in pupal size and development duration?

Author

Kaunisto S, Härkönen L, Niemelä P, Roininen H, and Ylönen H

Subjects

Animals, Climate, Diptera physiology, Ectoparasitic Infestations parasitology, Female, Finland, Geography, Male, Pupa growth & development, Temperature, Time Factors, Deer parasitology, Diptera growth & development, Diptera pathogenicity, Ectoparasitic Infestations veterinary, Life Cycle Stages

Abstract

The deer ked (Lipoptena cervi) is a common ectoparasite of cervids. During the last decades the species has rapidly invaded in northern Europe, especially in Finland, towards the north and increased its prevalence on the moose population. Consequently, during this rapid invasion the deer ked has faced more severe climatic conditions. We studied whether pupal size (measured as pupal weight) and pupal development duration of the deer ked varies along historical invasion zones and temperature zones towards north in Finland. Moreover, we explored possible size- and gender-dependent variation in pupal development duration. We divided wild-collected pupae in respect to their origin in two ways: (1) temperature zones (from south-west to colder north-east) and (2) invasion history (from early to late establishment). We reared pupae in the controlled laboratory conditions in identical temperature and light conditions. Pupal size decreased towards north and the smaller pupae developed faster. However, the results do not show differences in pupal size or developmental characteristics between the invasion zones. This supports the idea of rapid developmental plasticity of the deer ked and that not the invasion history but the current temperature regime determines the life history of the deer ked when invading towards a colder environment.

Published

2011

7. Environmental controls on the phenology of moths: predicting plasticity and constraint under climate change.

Author

Valtonen A, Ayres MP, Roininen H, Pöyry J, and Leinonen R

Subjects

Adaptation, Physiological, Animals, Cues, Finland, Flight, Animal, Geography, Models, Biological, Moths growth & development, Oviposition, Photoperiod, Seasons, Species Specificity, Temperature, Climate Change, Moths physiology

Abstract

Ecological systems have naturally high interannual variance in phenology. Component species have presumably evolved to maintain appropriate phenologies under historical climates, but cases of inappropriate phenology can be expected with climate change. Understanding controls on phenology permits predictions of ecological responses to climate change. We studied phenological control systems in Lepidoptera by analyzing flight times recorded at a network of sites in Finland. We evaluated the strength and form of controls from temperature and photoperiod, and tested for geographic variation within species. Temperature controls on phenology were evident in 51% of 112 study species and for a third of those thermal controls appear to be modified by photoperiodic cues. For 24% of the total, photoperiod by itself emerged as the most likely control system. Species with thermal control alone should be most immediately responsive in phenology to climate warming, but variably so depending upon the minimum temperature at which appreciable development occurs and the thermal responsiveness of development rate. Photoperiodic modification of thermal controls constrains phenotypic responses in phenologies to climate change, but can evolve to permit local adaptation. Our results suggest that climate change will alter the phenological structure of the Finnish Lepidoptera community in ways that are predictable with knowledge of the proximate physiological controls. Understanding how phenological controls in Lepidoptera compare to that of their host plants and enemies could permit general inferences regarding climatic effects on mid- to high-latitude ecosystems.

Published

2011