Tommy Lennartsson | Swedish University of Agricultural Sciences (original) (raw)
Papers by Tommy Lennartsson
Journal of Ecology, Jun 1, 2001
Transition matrix models were used to evaluate the effects of environmental stochasticity and fou... more Transition matrix models were used to evaluate the effects of environmental stochasticity and four different methods of grassland management on dynamics and viability of a population of the biennial Gentianella campestris (Gentianaceae) in species-rich grassland. Data were collected between 1990 and 1995. 2 Continuous summer grazing, the prevailing management strategy in Scandinavian grasslands, resulted in high recruitment of new plants, mainly because litter accumulation was prevented and gaps were created by trampling. Trampling and repeated grazing, however, caused damage which reduced seed production. Lambda for the average matrix was c. 0.77, and a stochastic matrix model yielded an extinction probability for the total population of c. 0.08 within 50 years. 3 Mowing in mid-July (used as a conservation tool) increased seed production, but litter accumulation following re-growth of the vegetation prevented establishment. Lambda and extinction risk were similar to continuous grazing. 4 Mowing in October (another conservation tool) promoted recruitment because of low litter accumulation, but the seed output decreased because plant growth was impaired by tall vegetation. Lambda was 0.64, while the extinction probability was very high (c. 0.98 within 50 years). 5 Mid-July mowing followed by autumn grazing (the historical management regime) yielded high values for both seed production and establishment of rosettes. Lambda was 0.94 and the probability of extinction within 50 years was below detection level. 6 Log-linear analysis showed that the matrices differed significantly both between treatments and between years. The latter indicates environmental stochasticity, here caused by summer drought that increased the extinction risk. Lambda may be slightly underestimated because drought occurred in one out of five summers during the study period, which is high compared with the natural frequency. 7 We conclude that traditional grassland management is more favourable for G. campestris than the methods that prevail in Scandinavia today. This indicates a serious conservation problem, because grazing has replaced traditional management in many of the remaining semi-natural grasslands throughout Europe.
Biodiversity and animal feed: future challenges for grassland production. Proceedings of the 22nd General Meeting of the European Grassland Federation, Uppsala, Sweden, 9-12 June 2008., 2008
Journal of insect science, Jun 1, 2010
Arthropod communities were investigated in two Swedish semi-natural grasslands, each subject to t... more Arthropod communities were investigated in two Swedish semi-natural grasslands, each subject to two types of grazing regime: conventional grazing from May to September (continuous grazing) and traditional late management from mid-July (late grazing). Pitfall traps were used to investigate abundance of carabids, spiders, and ants over the grazing season. Ant abundance was also measured by mapping nest density during three successive years. Small spiders, carabids and ants (Myrmica spp.) were more abundant in continuous grazing than in late grazing while larger spiders, carabids, and ants (Formica spp.) were more abundant in late grazing. The overall abundance of carabids was higher in continuous grazing in the early summer but higher in late grazing in the late summer. The switch of preference from continuous to late grazing coincided with the time for larvae hibernating species replacing adult hibernating. We discuss possible explanations for the observed responses in terms of effects of grazing season on a number of habitat variables for example temperature, food resources, structure of vegetation, litter layer, competition, and disturbance.
Faltgentianan utgors av tre underarter: den "vanliga" faltgentianan (Gentianella campes... more Faltgentianan utgors av tre underarter: den "vanliga" faltgentianan (Gentianella campestris ssp. campestris), satergentiana (G. campestris ssp. islandica) samt kustgentiana (G. campestris ssp. balt ...
Biodiversity and animal feed: future challenges for grassland production. Proceedings of the 22nd General Meeting of the European Grassland Federation, Uppsala, Sweden, 9-12 June 2008., 2008
Biological Conservation, Apr 1, 2015
Semi-natural hay meadows are species rich habitats, formed by a long history of management and th... more Semi-natural hay meadows are species rich habitats, formed by a long history of management and they have experienced a drastic decline all over Europe. There is a vast literature on conservation and species diversity of semi-natural hay-meadows, but very limited information on historic timing of hay cutting. We analyzed data collected between 1873 and 1951 on hay cutting dates and phenology of six plant species from farms distributed across Sweden. The data set comprised 16,015 observations from 175 sites. Results show that date of start and end of hay cutting varied across Sweden. The start of hay cutting was generally delayed by 2.2 days per latitudinal degree and 1.5 days per 100 m altitude, while the end of hay cutting was generally delayed by 2.9 days per latitudinal degree and 2.5 days per 100 m altitude. The average hay cutting period was 18.5 ± 6.6 days, and became slightly shorter northwards. Site-specific factors had a great impact on when hay cutting was performed, as indicated by a significant correlation between flowering (and leafing) phenology in other species and start date of hay cutting. Today, management for conservation is usually related to a calendar date (e.g. regulated in eligibility criteria and requirements for payment in agri-environment programs in EU). In order to mimic historic management that formed this habitat, management should instead account for latitude and altitude, between-year variation in timing of hay cutting, variation in both start and end dates of hay cutting and if possible local phenological conditions.
Ecology, Nov 1, 2002
In order to estimate how much population extinction risk may be affected by local fragmentation, ... more In order to estimate how much population extinction risk may be affected by local fragmentation, population viability analyses were performed in six populations of the endangered grassland herb Gentianella campestris in Sweden. The populations had been experimentally reintroduced to grasslands that were locally fragmented by juniper shrubs. The sites represented three sizes of grassland and two levels of grassland abundance in the landscape. Five years' demographic data were evaluated in a stochastic matrix population model, and studies of seed set, pollinator abundance, and inbreeding depression were performed in order to examine possible links between population viability and pollination. In all six sites, plants with reduced capacity of self-pollination (due to herkogamy) showed strongly reduced population viability in locally fragmented grassland habit, with pronounced extinction thresholds at certain levels of local fragmentation. Population viability was reduced because of inbreeding depression and reduced seed production in combination, both caused by pollinator deficit in locally fragmented grasslands. Plants with high selfing capacity had low population viability over the entire local fragmentation gradients. Selfing yielded high seed set in the absence of pollinators and was advantageous in fragmented parts of the grasslands. However, selfing had negative effects in nonfragmented parts of the grasslands, because it decreased the chances of cross-pollination and because selfed progeny had reduced fitness compared to outcrossed offspring. A comparison among the six sites indicated that the negative effects of local fragmentation were amplified by reduced size of the grassland sites and by reduced abundance of grassland habitat in the landscape. To my knowledge, this is the first quantitative estimate of increased extinction risk in fragmented plant populations.
International Journal of Ecology, 2012
Seminatural grasslands are maintained by regular anthropogenic disturbance, usually grazing or mo... more Seminatural grasslands are maintained by regular anthropogenic disturbance, usually grazing or mowing. Management action late in the growing season was historically more common than today. Two experimental grazing regimes, continuous stocking from May to September and late-onset grazing from mid-July, were compared in two Swedish grasslands. Effects on flowering and fruit production were studied and related to plant functional traits. Change in vegetation composition over six years was analysed in one grassland. Delayed onset of grazing enhanced fruit production up to four times. Phenology of reproduction was the most important plant trait explaining differences in reproduction among species. Diversity of vascular plant species was higher after six years of late-onset grazing. No differences in vegetation height or proportion of grazed shoots were found by the end of the season. The results suggest that early reproduction may function as an escape from damage and that late onset of grazing may be used as a substitute for labour-intense traditional mowing.
Nature and Conservation, Jul 28, 2015
Abundance of red-listed species in infrastructure habitats-"responsibility species" as a priority... more Abundance of red-listed species in infrastructure habitats-"responsibility species" as a priority-setting tool for transportation agencies´ conservation action.
Ecology, Apr 1, 1998
We present field evidence for the induction of overcompensation, or increased fruit and seed yiel... more We present field evidence for the induction of overcompensation, or increased fruit and seed yield as a consequence of damage, in the grassland biennial field gentian, Gentianella campestris (Gentianaceae). We compared equally sized clipped and unclipped plants in two populations in central Sweden during three years, 1992-1994, and plants clipped at different occasions, from 20 June to 2 August. Clipping once, by removing half of the biomass, significantly increased fruit production without affecting the number of seeds per fruit or seed mass. The degree of compensation was sensitive to the timing of clipping. Damage induced overcompensation only during a restricted inductive time period (ITP) in July. Plants clipped before about 1 July or after about 22 July achieved no overcompensation. The early limit of ITP was presumably determined by the availability of resources that could be mobilized for regrowth after damage. The late limit, on the other hand, depended primarily on the differentiation of meristems close to flowering in early August. The effects of clipping varied between years, presumably due to drought in 1994. During 1992-1993, plants consistently overcompensated for clipping on 1-20 July, whereas in 1994 only early clipping from 1 to 12 July induced overcompensation. In 1994, plants clipped in late July compensated less well, due to delayed fruit maturation leading to a high proportion of immature fruits at the end of the season. Because of this between-year variation, we used geometric mean fitness to calculate the expected long-term effects of damage over generations. The analysis suggests that the long-term effects can vary from positive to negative, depending on the frequency of bad fruiting years. The time limits of ITP fit well the hypothesis that predictable damage in July may have selected for a capacity of overcompensation in the field gentian. Because the ultimate limits of ITP are set by the length of the vegetation period, we expect overcompensation in this species to be more common in regions with a longer growing season.
Plant Systematics and Evolution, 1997
Abstract18 populations of the grassland biennialsGentianella amarella andG. campestris were culti... more Abstract18 populations of the grassland biennialsGentianella amarella andG. campestris were cultivated to clarify the genetical vs. environmental components of the flowering phenology, and the reproductive isolation caused by seasonal differentiation. The influence of some environmental factors was tested. The seasonal variation persisted in cultivation, and the plants could normally be assigned to distinct aestival or autumnal groups, with no reproductive contact. Flowering phenology was affected by environmental factors, but not to such an extent that the reproductive isolation was broken. The observed phenological variation was not reflected by a corresponding variation in present management practices. Management history and possible non-anthropogenic factors are discussed as alternative explanations.
Grass and Forage Science, Mar 1, 2008
The present study investigated how the abundance and sexual reproduction of herbs and grasses rel... more The present study investigated how the abundance and sexual reproduction of herbs and grasses relates to the presence of shrubs of Rosa dumalis in three semi-natural pastures in Sweden. Shrubs may affect grassland plants negatively by competition, positively by serving as grazing refuge, or neutrally. At different distances from shrubs of R. dumalis, data were collected on plant abundance, frequency of reproductive shoots, vegetation height and litter depth. In one grassland, data were collected on seedling density and frequency of reproductive shoots in the presence and absence of grazing. The shrubs functioned as grazing refuges with taller vegetation, deeper litter and higher probability of reproduction by plants. The overall number of plant species remained the same at all distances from shrubs. Most species showed a neutral relationship with shrubs. Proportionately, 0AE08-0AE26 of the species showed a negative pattern to shrubs and 0AE14-0AE30 a positive pattern. Seedling density was negatively correlated with litter depth and peaked at 60-90 cm from shrubs. Establishment of seedlings of small-seeded species was negatively related to shrubs probably because of thicker litter layer close to shrubs. The observed patterns were compared with different functional traits, such as Ellenberg values, plant height, growth form and Raunkiaer life form. Plant height from data in the literature was the trait that best explained the relationship of plant species to shrubs because tall species were more common in proximity to shrubs. It was concluded that shrubs increase the heterogeneity in grasslands and that intensive shrub-clearing may negatively affect biodiversity.
The American Naturalist, Jun 1, 1997
... TOMMY LENNARTSSON,1,* JUHA TUOMI,2 AND PATRIC NILSSON3, 1Swedish University of Agricultural ... more ... TOMMY LENNARTSSON,1,* JUHA TUOMI,2 AND PATRIC NILSSON3, 1Swedish University of Agricultural Sciences, Department of Conservation Biology ... claimed that the monocarpic herb scarlet gilia Ipomopsis aggregata (Polemoniaceae) can, in fact, produce more fruits and ...
Ecology, Apr 1, 1998
We present field evidence for the induction of overcompensation, or increased fruit and seed yiel... more We present field evidence for the induction of overcompensation, or increased fruit and seed yield as a consequence of damage, in the grassland biennial field gentian, Gentianella campestris (Gentianaceae). We compared equally sized clipped and unclipped plants in two populations in central Sweden during three years, 1992-1994, and plants clipped at different occasions, from 20 June to 2 August. Clipping once, by removing half of the biomass, significantly increased fruit production without affecting the number of seeds per fruit or seed mass. The degree of compensation was sensitive to the timing of clipping. Damage induced overcompensation only during a restricted inductive time period (ITP) in July. Plants clipped before about 1 July or after about 22 July achieved no overcompensation. The early limit of ITP was presumably determined by the availability of resources that could be mobilized for regrowth after damage. The late limit, on the other hand, depended primarily on the differentiation of meristems close to flowering in early August. The effects of clipping varied between years, presumably due to drought in 1994. During 1992-1993, plants consistently overcompensated for clipping on 1-20 July, whereas in 1994 only early clipping from 1 to 12 July induced overcompensation. In 1994, plants clipped in late July compensated less well, due to delayed fruit maturation leading to a high proportion of immature fruits at the end of the season. Because of this between-year variation, we used geometric mean fitness to calculate the expected long-term effects of damage over generations. The analysis suggests that the long-term effects can vary from positive to negative, depending on the frequency of bad fruiting years. The time limits of ITP fit well the hypothesis that predictable damage in July may have selected for a capacity of overcompensation in the field gentian. Because the ultimate limits of ITP are set by the length of the vegetation period, we expect overcompensation in this species to be more common in regions with a longer growing season.
Land management meeting several environmental objectives : minimizing impacts on greenhouse gas e... more Land management meeting several environmental objectives : minimizing impacts on greenhouse gas emissions, biodiversity and water : knowledge compilation and s...
With intensified and changed land-use during the last 100 years much of the landscape’s species-r... more With intensified and changed land-use during the last 100 years much of the landscape’s species-rich habitats have disappeared. Case studies of some species have shown that roadside verges and other infrastructure-habitats function as the last refuges and are in some cases the main or only remaining habitat for the species. It is not known, however, how important the transport infrastructure is in general for the conservation of biodiversity – can infrastructure contribute significantly to conservation? Can certain “responsibility species” be identified which should be considered when building and maintaining roads, railways etc.? In this study, observations of red-listed species in a voluntarily reporting system were used to analyze for which species and groups of species the road infrastructure is particularly important in a region in western Sweden. The data of c. 50,000 data points were analyzed by two methods, by categorization of habitat based on the observers’ notions and by geographical position, to examine the proportion of observations along roads compared to observations in other habitats. 18 species were found to have all or a large part of its observations in roadside habitats. The methods gave somewhat different results and the different sources of errors in these types of analyses are discussed. How accurate results can the authors obtain using the available data? Further work includes defining target indicators for different management according to ecological groups.
Journal of Ecology, Jun 1, 2001
Transition matrix models were used to evaluate the effects of environmental stochasticity and fou... more Transition matrix models were used to evaluate the effects of environmental stochasticity and four different methods of grassland management on dynamics and viability of a population of the biennial Gentianella campestris (Gentianaceae) in species-rich grassland. Data were collected between 1990 and 1995. 2 Continuous summer grazing, the prevailing management strategy in Scandinavian grasslands, resulted in high recruitment of new plants, mainly because litter accumulation was prevented and gaps were created by trampling. Trampling and repeated grazing, however, caused damage which reduced seed production. Lambda for the average matrix was c. 0.77, and a stochastic matrix model yielded an extinction probability for the total population of c. 0.08 within 50 years. 3 Mowing in mid-July (used as a conservation tool) increased seed production, but litter accumulation following re-growth of the vegetation prevented establishment. Lambda and extinction risk were similar to continuous grazing. 4 Mowing in October (another conservation tool) promoted recruitment because of low litter accumulation, but the seed output decreased because plant growth was impaired by tall vegetation. Lambda was 0.64, while the extinction probability was very high (c. 0.98 within 50 years). 5 Mid-July mowing followed by autumn grazing (the historical management regime) yielded high values for both seed production and establishment of rosettes. Lambda was 0.94 and the probability of extinction within 50 years was below detection level. 6 Log-linear analysis showed that the matrices differed significantly both between treatments and between years. The latter indicates environmental stochasticity, here caused by summer drought that increased the extinction risk. Lambda may be slightly underestimated because drought occurred in one out of five summers during the study period, which is high compared with the natural frequency. 7 We conclude that traditional grassland management is more favourable for G. campestris than the methods that prevail in Scandinavia today. This indicates a serious conservation problem, because grazing has replaced traditional management in many of the remaining semi-natural grasslands throughout Europe.
Biodiversity and animal feed: future challenges for grassland production. Proceedings of the 22nd General Meeting of the European Grassland Federation, Uppsala, Sweden, 9-12 June 2008., 2008
Journal of insect science, Jun 1, 2010
Arthropod communities were investigated in two Swedish semi-natural grasslands, each subject to t... more Arthropod communities were investigated in two Swedish semi-natural grasslands, each subject to two types of grazing regime: conventional grazing from May to September (continuous grazing) and traditional late management from mid-July (late grazing). Pitfall traps were used to investigate abundance of carabids, spiders, and ants over the grazing season. Ant abundance was also measured by mapping nest density during three successive years. Small spiders, carabids and ants (Myrmica spp.) were more abundant in continuous grazing than in late grazing while larger spiders, carabids, and ants (Formica spp.) were more abundant in late grazing. The overall abundance of carabids was higher in continuous grazing in the early summer but higher in late grazing in the late summer. The switch of preference from continuous to late grazing coincided with the time for larvae hibernating species replacing adult hibernating. We discuss possible explanations for the observed responses in terms of effects of grazing season on a number of habitat variables for example temperature, food resources, structure of vegetation, litter layer, competition, and disturbance.
Faltgentianan utgors av tre underarter: den "vanliga" faltgentianan (Gentianella campes... more Faltgentianan utgors av tre underarter: den "vanliga" faltgentianan (Gentianella campestris ssp. campestris), satergentiana (G. campestris ssp. islandica) samt kustgentiana (G. campestris ssp. balt ...
Biodiversity and animal feed: future challenges for grassland production. Proceedings of the 22nd General Meeting of the European Grassland Federation, Uppsala, Sweden, 9-12 June 2008., 2008
Biological Conservation, Apr 1, 2015
Semi-natural hay meadows are species rich habitats, formed by a long history of management and th... more Semi-natural hay meadows are species rich habitats, formed by a long history of management and they have experienced a drastic decline all over Europe. There is a vast literature on conservation and species diversity of semi-natural hay-meadows, but very limited information on historic timing of hay cutting. We analyzed data collected between 1873 and 1951 on hay cutting dates and phenology of six plant species from farms distributed across Sweden. The data set comprised 16,015 observations from 175 sites. Results show that date of start and end of hay cutting varied across Sweden. The start of hay cutting was generally delayed by 2.2 days per latitudinal degree and 1.5 days per 100 m altitude, while the end of hay cutting was generally delayed by 2.9 days per latitudinal degree and 2.5 days per 100 m altitude. The average hay cutting period was 18.5 ± 6.6 days, and became slightly shorter northwards. Site-specific factors had a great impact on when hay cutting was performed, as indicated by a significant correlation between flowering (and leafing) phenology in other species and start date of hay cutting. Today, management for conservation is usually related to a calendar date (e.g. regulated in eligibility criteria and requirements for payment in agri-environment programs in EU). In order to mimic historic management that formed this habitat, management should instead account for latitude and altitude, between-year variation in timing of hay cutting, variation in both start and end dates of hay cutting and if possible local phenological conditions.
Ecology, Nov 1, 2002
In order to estimate how much population extinction risk may be affected by local fragmentation, ... more In order to estimate how much population extinction risk may be affected by local fragmentation, population viability analyses were performed in six populations of the endangered grassland herb Gentianella campestris in Sweden. The populations had been experimentally reintroduced to grasslands that were locally fragmented by juniper shrubs. The sites represented three sizes of grassland and two levels of grassland abundance in the landscape. Five years' demographic data were evaluated in a stochastic matrix population model, and studies of seed set, pollinator abundance, and inbreeding depression were performed in order to examine possible links between population viability and pollination. In all six sites, plants with reduced capacity of self-pollination (due to herkogamy) showed strongly reduced population viability in locally fragmented grassland habit, with pronounced extinction thresholds at certain levels of local fragmentation. Population viability was reduced because of inbreeding depression and reduced seed production in combination, both caused by pollinator deficit in locally fragmented grasslands. Plants with high selfing capacity had low population viability over the entire local fragmentation gradients. Selfing yielded high seed set in the absence of pollinators and was advantageous in fragmented parts of the grasslands. However, selfing had negative effects in nonfragmented parts of the grasslands, because it decreased the chances of cross-pollination and because selfed progeny had reduced fitness compared to outcrossed offspring. A comparison among the six sites indicated that the negative effects of local fragmentation were amplified by reduced size of the grassland sites and by reduced abundance of grassland habitat in the landscape. To my knowledge, this is the first quantitative estimate of increased extinction risk in fragmented plant populations.
International Journal of Ecology, 2012
Seminatural grasslands are maintained by regular anthropogenic disturbance, usually grazing or mo... more Seminatural grasslands are maintained by regular anthropogenic disturbance, usually grazing or mowing. Management action late in the growing season was historically more common than today. Two experimental grazing regimes, continuous stocking from May to September and late-onset grazing from mid-July, were compared in two Swedish grasslands. Effects on flowering and fruit production were studied and related to plant functional traits. Change in vegetation composition over six years was analysed in one grassland. Delayed onset of grazing enhanced fruit production up to four times. Phenology of reproduction was the most important plant trait explaining differences in reproduction among species. Diversity of vascular plant species was higher after six years of late-onset grazing. No differences in vegetation height or proportion of grazed shoots were found by the end of the season. The results suggest that early reproduction may function as an escape from damage and that late onset of grazing may be used as a substitute for labour-intense traditional mowing.
Nature and Conservation, Jul 28, 2015
Abundance of red-listed species in infrastructure habitats-"responsibility species" as a priority... more Abundance of red-listed species in infrastructure habitats-"responsibility species" as a priority-setting tool for transportation agencies´ conservation action.
Ecology, Apr 1, 1998
We present field evidence for the induction of overcompensation, or increased fruit and seed yiel... more We present field evidence for the induction of overcompensation, or increased fruit and seed yield as a consequence of damage, in the grassland biennial field gentian, Gentianella campestris (Gentianaceae). We compared equally sized clipped and unclipped plants in two populations in central Sweden during three years, 1992-1994, and plants clipped at different occasions, from 20 June to 2 August. Clipping once, by removing half of the biomass, significantly increased fruit production without affecting the number of seeds per fruit or seed mass. The degree of compensation was sensitive to the timing of clipping. Damage induced overcompensation only during a restricted inductive time period (ITP) in July. Plants clipped before about 1 July or after about 22 July achieved no overcompensation. The early limit of ITP was presumably determined by the availability of resources that could be mobilized for regrowth after damage. The late limit, on the other hand, depended primarily on the differentiation of meristems close to flowering in early August. The effects of clipping varied between years, presumably due to drought in 1994. During 1992-1993, plants consistently overcompensated for clipping on 1-20 July, whereas in 1994 only early clipping from 1 to 12 July induced overcompensation. In 1994, plants clipped in late July compensated less well, due to delayed fruit maturation leading to a high proportion of immature fruits at the end of the season. Because of this between-year variation, we used geometric mean fitness to calculate the expected long-term effects of damage over generations. The analysis suggests that the long-term effects can vary from positive to negative, depending on the frequency of bad fruiting years. The time limits of ITP fit well the hypothesis that predictable damage in July may have selected for a capacity of overcompensation in the field gentian. Because the ultimate limits of ITP are set by the length of the vegetation period, we expect overcompensation in this species to be more common in regions with a longer growing season.
Plant Systematics and Evolution, 1997
Abstract18 populations of the grassland biennialsGentianella amarella andG. campestris were culti... more Abstract18 populations of the grassland biennialsGentianella amarella andG. campestris were cultivated to clarify the genetical vs. environmental components of the flowering phenology, and the reproductive isolation caused by seasonal differentiation. The influence of some environmental factors was tested. The seasonal variation persisted in cultivation, and the plants could normally be assigned to distinct aestival or autumnal groups, with no reproductive contact. Flowering phenology was affected by environmental factors, but not to such an extent that the reproductive isolation was broken. The observed phenological variation was not reflected by a corresponding variation in present management practices. Management history and possible non-anthropogenic factors are discussed as alternative explanations.
Grass and Forage Science, Mar 1, 2008
The present study investigated how the abundance and sexual reproduction of herbs and grasses rel... more The present study investigated how the abundance and sexual reproduction of herbs and grasses relates to the presence of shrubs of Rosa dumalis in three semi-natural pastures in Sweden. Shrubs may affect grassland plants negatively by competition, positively by serving as grazing refuge, or neutrally. At different distances from shrubs of R. dumalis, data were collected on plant abundance, frequency of reproductive shoots, vegetation height and litter depth. In one grassland, data were collected on seedling density and frequency of reproductive shoots in the presence and absence of grazing. The shrubs functioned as grazing refuges with taller vegetation, deeper litter and higher probability of reproduction by plants. The overall number of plant species remained the same at all distances from shrubs. Most species showed a neutral relationship with shrubs. Proportionately, 0AE08-0AE26 of the species showed a negative pattern to shrubs and 0AE14-0AE30 a positive pattern. Seedling density was negatively correlated with litter depth and peaked at 60-90 cm from shrubs. Establishment of seedlings of small-seeded species was negatively related to shrubs probably because of thicker litter layer close to shrubs. The observed patterns were compared with different functional traits, such as Ellenberg values, plant height, growth form and Raunkiaer life form. Plant height from data in the literature was the trait that best explained the relationship of plant species to shrubs because tall species were more common in proximity to shrubs. It was concluded that shrubs increase the heterogeneity in grasslands and that intensive shrub-clearing may negatively affect biodiversity.
The American Naturalist, Jun 1, 1997
... TOMMY LENNARTSSON,1,* JUHA TUOMI,2 AND PATRIC NILSSON3, 1Swedish University of Agricultural ... more ... TOMMY LENNARTSSON,1,* JUHA TUOMI,2 AND PATRIC NILSSON3, 1Swedish University of Agricultural Sciences, Department of Conservation Biology ... claimed that the monocarpic herb scarlet gilia Ipomopsis aggregata (Polemoniaceae) can, in fact, produce more fruits and ...
Ecology, Apr 1, 1998
We present field evidence for the induction of overcompensation, or increased fruit and seed yiel... more We present field evidence for the induction of overcompensation, or increased fruit and seed yield as a consequence of damage, in the grassland biennial field gentian, Gentianella campestris (Gentianaceae). We compared equally sized clipped and unclipped plants in two populations in central Sweden during three years, 1992-1994, and plants clipped at different occasions, from 20 June to 2 August. Clipping once, by removing half of the biomass, significantly increased fruit production without affecting the number of seeds per fruit or seed mass. The degree of compensation was sensitive to the timing of clipping. Damage induced overcompensation only during a restricted inductive time period (ITP) in July. Plants clipped before about 1 July or after about 22 July achieved no overcompensation. The early limit of ITP was presumably determined by the availability of resources that could be mobilized for regrowth after damage. The late limit, on the other hand, depended primarily on the differentiation of meristems close to flowering in early August. The effects of clipping varied between years, presumably due to drought in 1994. During 1992-1993, plants consistently overcompensated for clipping on 1-20 July, whereas in 1994 only early clipping from 1 to 12 July induced overcompensation. In 1994, plants clipped in late July compensated less well, due to delayed fruit maturation leading to a high proportion of immature fruits at the end of the season. Because of this between-year variation, we used geometric mean fitness to calculate the expected long-term effects of damage over generations. The analysis suggests that the long-term effects can vary from positive to negative, depending on the frequency of bad fruiting years. The time limits of ITP fit well the hypothesis that predictable damage in July may have selected for a capacity of overcompensation in the field gentian. Because the ultimate limits of ITP are set by the length of the vegetation period, we expect overcompensation in this species to be more common in regions with a longer growing season.
Land management meeting several environmental objectives : minimizing impacts on greenhouse gas e... more Land management meeting several environmental objectives : minimizing impacts on greenhouse gas emissions, biodiversity and water : knowledge compilation and s...
With intensified and changed land-use during the last 100 years much of the landscape’s species-r... more With intensified and changed land-use during the last 100 years much of the landscape’s species-rich habitats have disappeared. Case studies of some species have shown that roadside verges and other infrastructure-habitats function as the last refuges and are in some cases the main or only remaining habitat for the species. It is not known, however, how important the transport infrastructure is in general for the conservation of biodiversity – can infrastructure contribute significantly to conservation? Can certain “responsibility species” be identified which should be considered when building and maintaining roads, railways etc.? In this study, observations of red-listed species in a voluntarily reporting system were used to analyze for which species and groups of species the road infrastructure is particularly important in a region in western Sweden. The data of c. 50,000 data points were analyzed by two methods, by categorization of habitat based on the observers’ notions and by geographical position, to examine the proportion of observations along roads compared to observations in other habitats. 18 species were found to have all or a large part of its observations in roadside habitats. The methods gave somewhat different results and the different sources of errors in these types of analyses are discussed. How accurate results can the authors obtain using the available data? Further work includes defining target indicators for different management according to ecological groups.