Artificial sowing of endangered dry grassland species into disused basalt quarries

Steppe-like dry (semi) natural grasslands are valuable and endangered habitats in central Europe. In the study area (the ?eské st?edoho?í Hills, Czech Republic), they occur in fragments on southern slopes of volcanic hills, often in the vicinity of quarries, which are numerous there. We performed sowing experiments and observed seedling recruitment of six species, typical for the dry grasslands, in 9 basalt quarries located in 3 different climatic regions over 3 yr. The sowing experiments were established in young successional stages, 5–12 yr after quarrying was stopped. The objectives of the experiments were to evaluate: (i) if seedling recruitment and survival of the target species are possible regarding different climatic regions and (ii) what is the influence of weather fluctuations among years on seedling survival. Seedlings of all studied species were able to recruit and survive in the early successional stages at least in some quarries. The species, except one, showed significant differences in recruitment among the climatic regions, with the best recruitment and survival in the driest and warmest region. Seedlings of two species did not recruit in the wettest and coldest region. All species survived in the driest and warmest region, while only one did so in the coldest and wettest region. Different weather conditions in the studied years significantly influenced recruitment of two species. The number of localities (floristic records) of particular species in the regions was the best predictor of species germination and survival. Thus a traditional floristic survey may help to predict success of species in restoration projects. It emerged that artificial sowing can be considered in restoration programs as a way of contributing to restoration of dry grasslands in disused quarries.     

Effects of grassland extensification on the population dynamics of the invasive species Chaerophyllum aureum

Abstract. The consequences of extensification on grassland invasion by weeds was studied in French Pyrenean hay-meadows through a survey of the population dynamics of one very successful colonizer: Chaerophyllum aureum. Experiments established in natural permanent grasslands allow us to test the effect of different intensities of cutting on the demography of adult and seedling populations and on the production of seeds and their survival in soil. Although an early cut can control population density by drastically reducing invasion by new genotypes, the results reveal a positive effect of early cutting on adult and seedling survival probably by decreasing intra-specific competition. Allocation of resources to sexual reproduction in response to cutting is limited, affecting especially the seed viability in soil. Nevertheless, the invasive ability of this species is due largely to a strategy whereby those adults showing a high survival rate tend to be perennial.     

Predicting the establishment success of introduced target species in grassland restoration by functional traits

Species‐rich semi‐natural grasslands are highly endangered habitats in Central Europe and numerous restoration efforts have been made to compensate for the losses in the last decades. However, some plant species could become more easily established than others. The establishment success of 37 species was analyzed over 6 years at two study sites of a restoration project in Germany where hay transfer and sowing of threshing material in combination with additional sowing were applied. The effects of the restoration method applied, time since the restoration took place, traits related to germination, dispersal, and reproduction, and combinations of these traits on the establishment were analyzed. While the specific restoration method of how seeds were transferred played a subordinate role, the establishment success depended in particular on traits such as flower season or the lifeform. Species flowering in autumn, such as Pastinaca sativa and Serratula tinctoria, became established better than species flowering in other seasons, probably because they could complete their life cycle, resulting in increasingly stronger seed pressure with time. Geophytes, like Allium angulosum and Galium boreale, became established very poorly, but showed an increase with study duration. For various traits, we found significant trait by method and trait by year interactions, indicating that different traits promoted establishment under different conditions. Using a multi‐model approach, we tested whether traits acted in combination. For the first years and the last year, we found that models with three traits explained establishment success better than models with a single trait or two traits. While traits had only an additive effect on the establishment success in the first years, trait interactions became important thereafter. The most important trait was the season of flowering, which occurred in all best models from the third year onwards. Overall, our approach revealed the potential of functional trait analysis to predict success in restoration projects.     

Variation in species richness within and between calcareous (alvar) grassland stands: the role of core and satellite species

Anoda cristata is a widelydistributed annual weed in Mexico, which grows as agrestal or naturally indisturbed and undisturbed vegetation, respectively. Plants of this species aretolerated in orchards and corn-bean fields by Mexican ethnic groups ofCentral Mexico. Leaves of the plants are used as a food source, andoccasionallyseeds are sown in orchards. Because Mexicans have used Anodacristata for a long time, it is possible that ecological andmorphological characteristics of managed populations differ from those of wildpopulations. In this study, we analyzed phenotypic responses of two populationsof A. cristata (wild and agrestal) growing in twohabitats (forest and cultivated field) comparing survivorship, andlife history traits. Natural progenies from wild and agrestal populations ofA. cristata were transplanted into a cultivated field andin the understory of a pine forest in a reciprocal transplant experiment.Results showed that the habitat of transplant and the origin of populations hadsignificant effect on all plant characters measured (growth, phenology, andbiomass allocation), but the habitat x origin interaction wasnon-significant. In general, plants from the agrestal population grewfaster, reproduced earlier, and allocated more biomass to reproduction, thanplants from the wild population. Similarly, significant effects of habitat andorigin on plant survivorship were detected, but the origin of populationsexplained the largest proportion of variance in plant survival. Most traitswerephenotypically plastic but there were no differences in the magnitude ordirection of the response between populations. In contrast both populationsshowed differentiation for most character mean values. Populationdifferentiation is possibly the result of genetic differences driven byprocesses other than incipient domestication.     

Energy dynamics in the C4 species dominated montane subtropical grassland at Nilgiri Biosphere Reserve, the Western Ghats, India

The energy dynamics in Thiashola grassland, a montane subtropical vegetation in Nilgiri Biosphere Reserve, the Western Ghats, India is studied for a period of one year. The study revealed that the energy content in unit biomass of C₃ and C₄ species has not varied significantly. However, the C₄ species in total due to higher net primary production, entrapped 8.5 times greater solar energy (28.82 kcal/m²/day) than that of their C₃ counterparts. Of the total energy fixed, the C₃ and C₄ species, respectively channeled 4.07 kcal/m²/day and 13.3 kcal/m²/day to the aboveground standing live compartment. The transfer rate of energy to standing dead compartment from standing live part were 3.22 kcal/m²/day and 10.36 kcal/m²/day for C₃ and C₄ species, respectively and both the C₃ and C₄ together transferred 4.81 kcal/m²/day of energy from standing dead to litter compartment. The total dissipation of energy from the system is determined to be 4401.11 kcal/m²/yr and the surplus quantity of 38.37% of energy is accumulated in the aboveground parts of both C₃ and C₄ species which indicates the availability of substantial amount of energetic fodder to the wild herbivores in the Thiashola grassland.     

云雾山天然草地物种分布与环境因子的关系

应用数量生态学中的梯度分析方法研究了云雾山天然草地群落类型、物种分布以及与环境因子的关系.研究结果表明,作为重要的人为管理措施,封育通过改善草地的水分、养分等环境条件,显著影响了云雾山草地的物种分布和群落类型.在封育草地,植被类型为本氏针茅群落,未封育草地为铁杆蒿群落.本氏针茅、百里香、大针茅、直茎点地梅、阿尔泰狗哇花等中旱生植物在封育草地中占优势,铁杆蒿、硬质早熟禾、星毛委菱菜等在退化草地中占优势.除封育措施以外,20～100cm 的土壤含水量对物种分布影响显著.同时,养分作为一个重要的环境因素对物种的分布也具有重要影响,特别是速效钾和NO-3-N.海拔、坡位、坡向等地形因素对植物分布的影响不明显.     

Energy dynamics in the C4 species dominated montane subtropical grassland at Nilgiri Biosphere Reserve, the Western Ghats, India

The energy dynamics in Thiashola grassland, a montane subtropical vegetation in Nilgiri Biosphere Reserve, the Western Ghats, India is studied for a period of one year. The study revealed that the energy content in unit biomass of C₃ and C₄ species has not varied significantly. However, the C₄ species in total due to higher net primary production, entrapped 8.5 times greater solar energy (28.82 kcal/m²/day) than that of their C₃ counterparts. Of the total energy fixed, the C₃ and C₄ species, respectively channeled 4.07 kcal/m²/day and 13.3 kcal/m²/day to the aboveground standing live compartment. The transfer rate of energy to standing dead compartment from standing live part were 3.22 kcal/m²/day and 10.36 kcal/m²/day for C₃ and C₄ species, respectively and both the C₃ and C₄ together transferred 4.81 kcal/m²/day of energy from standing dead to litter compartment. The total dissipation of energy from the system is determined to be 4401.11 kcal/m²/yr and the surplus quantity of 38.37% of energy is accumulated in the aboveground parts of both C₃ and C₄ species which indicates the availability of substantial amount of energetic fodder to the wild herbivores in the Thiashola grassland.     

Differential effects of elevated ultraviolet-B radiation on plant species of a dune grassland ecosystem

In a greenhouse study, plants of three monocotyledonous and five dicotyledonous species, which occur in a Dutch dune grassland, were exposed to four levels of ultraviolet-B (UV-B) radiation. UV-B levels simulated up to 30% reduction of the stratospheric ozone column during summertime in The Netherlands. Six of the plant species studied in the greenhouse were also exposed to enhanced UV-B irradiance in an experimental field study. In the field experiment plants either received the ambient UV-B irradiance (control) or an enhanced UV-B level simulating 15–20% ozone depletion during summertime in The Netherlands. The purpose of both experiments was to determine the response of the plant species to UV-B radiation and to compare results obtained in the greenhouse with results of the field experiment. Large intraspecific differences in UV-B sensitivity were observed in the greenhouse study. Total dry matter accumulation of monocotyledons was increased, while dry matter accumulation of dicotyledons remained unaffected or decreased. The increase in biomass production of monocotyledons at elevated UV-B was not related to the rate of photosynthesis but to alterations in leaf orientation. In the greenhouse study, UV-B radiation also affected morphological characteristics. Shoot height or maximum leaf length of five out of eight species was reduced. In the field study only one species showed a significantly decreased maximum leaf length at enhanced UV-B. Possible reasons for this discrepancy are discussed. The absorbance of methanolic leaf extracts also differed between species. UV absorbance of field-grown plants was higher than greenhouse-grown plants. In the greenhouse study, the highest UV-B level increased UV-B absorbance of some species. In the field study however, this stimulation of UV absorbance was not observed. In general, results obtained in the greenhouse study were similar to results obtained in the field study. Difficulties in extrapolating results of UV-B experiments conducted in the greenhouse to the field situation are discussed.     

Diel patterns of predation and fledging at nests of four species of grassland songbirds

Although it is common for nestlings to exhibit a strong bias for fledging in the morning, the mechanisms underlying this behavior are not well understood. Avoiding predation risk has been proposed as a likely mechanism by a number of researchers. We used video surveillance records from studies of grassland birds nesting in North Dakota, Minnesota, and Wisconsin to determine the diel pattern of nest predation and fledging patterns of four ground‐nesting obligate grassland passerines (Grasshopper Sparrow (Ammodramus savannarum), Savannah Sparrow (Passerculus sandwichensis), Bobolink (Dolichonyx oryzivorus), and Eastern Meadowlark (Sturnella magna)). We used the nest predation pattern as a surrogate for predation activity to test whether nestlings minimized predation risk by avoiding fledging when predation activity was high and preferentially fledging when predation risk was low. Predation activity was significantly lower starting 3 hr before sunrise and ending 3 hr after sunrise, followed by a transition to a period of significantly higher activity lasting for 4 hr, before declining to an average activity level for the rest of the diel period. There was little evidence that the four grassland bird species avoided fledging during the high‐risk period and Savannah Sparrow fledged at higher rates during that period. All four species had hours during the low‐risk period where they fledged at higher rates, but only Grasshopper Sparrow fledged preferentially during that period. Bobolink and Eastern Meadowlark had multiple hours with high fledging rates throughout the daytime period, resulting in no relationship between probability of fledging and predation risk. Given the species variability in fledging pattern seen in our study, it is unlikely that there is a universal response to any driver that affects time of fledging. Further study is needed to understand the complex interplay between species ecology and drivers such as physiology, energetics, and predation in affecting grassland bird fledging behavior.     

The impact of pests and diseases on the herbage yield of permanent grassland at eight sites in England and Wales

Plots at each of eight widespread permanent pasture sites below 300 m and representative of large areas of long established grassland in England and Wales, were treated with an insecticide plus molluscicide, a fungicide or nematicide treatment. Populations of various invertebrates and the occurrence of foliar fungal diseases were assessed. Leaf blotch (Drechslera) was the most common disease, but neither this nor other foliar fungal diseases were prevalent until late in the growing season. The fungicide treatment did not control diseases satisfactorily. The fungicide and nematicide treatment had little effect on total annual herbage yield. Leatherjackets, crambids, slugs and frit fly larvae were present, usually in low numbers, at most sites. The insecticide and molluscicide treatment increased yield by 11% on average across all sites and years. Losses caused by pests to UK grasslands were estimated to be over £500 million per year.     

Chemical composition and construction cost for roots of Mediterranean trees, shrub species and grassland communities

The construction cost of fine roots was studied in 23 woody species and two grassland communities, growing under natural conditions in southern Spain. Calculation of the energy (glucose) required for their synthesis was based on the quantification of chemical components present in tissues. Despite considerable differences in the chemical composition of the three life forms studied (trees, shrubs and herbaceous), detected differences in construction cost were non‐significant (mean value: 1·64 ± 0·13 g glucose g^?1). However, shrubs and herbaceous plants growing in more fertile habitats expended significantly less energy on root synthesis (1·58 ± 0·06 and 1·41 ± 0·05 g glucose g^?1, respectively) than those growing in less fertile areas (1·80 ± 0·06 and 1·57 ± 0·1 g glucose g^?1, respectively), because they contained smaller amounts of either waxes (shrubs) or lignins (herbaceous), both expensive to synthesize, and, proportionately, more cellulose; which is inexpensive to synthesize. Deciduous and evergreen tree species also differed mainly with regard to wax and cellulose contents, giving rise to a significantly higher construction cost in evergreens (1·57 ± 0·07 g glucose g^?1 versus 1·78 ± 0·02 g glucose g^?1). The differences observed in construction cost appeared to be due more to habitat‐induced differences in chemical composition than to any intrinsic difference between the species studied.     

Abundance and habitat segregation in Mediterranean grassland species: the importance of seed weight

Abstract. We analysed the relationship between seed traits (weight, shape and dispersal structures) and the abundance and habitat segregation of Mediterranean grassland species. To take into account possible correlations with other plant traits, the study also includes 5 vegetative traits (growth form, plant longevity, clonality, onset of flowering and plant size) of commonly accepted functional importance. Data were recorded for 85 species from dehesa grasslands in central Spain. Species abundance was measured in upper (dry and less productive, high stress) and lower (moist and more productive, low stress) slope zones in the same area. Habitat segregation was estimated using an index based on the relative frequencies of species in upper and lower slope zones. Multiple regression models were fitted using species, as well as phylogenetically independent contrasts, as data points. Annual small‐seeded species without specialised dispersal structures are over‐represented in dehesa grasslands. Abundance was negatively related to seed weight in upper slope zones. None of the recorded plant traits were related to abundance in the lower slope zones. Habitat segregation was mainly related to seed weight, but also to some vegetative traits. Annual, early flowering and small‐seeded species were relatively more abundant in the upper than the lower slope zones. This pattern is independent of phylogeny. Our results suggest that in dry Mediterranean grasslands, abundance of many species is determined by dispersal (production of numerous small seeds) rather than by competitive ability.     

Shading out species richness: edge effect of a pine plantation on the Orthoptera (Tettigoniidae and Acrididae) assemblage of an adjacent dry grassland

Edge effects are increasingly recognised as a threat to interior species, but the influence of edges on open habitats has rarely been addressed so far. We investigated the diversity pattern of the Orthoptera fauna across a habitat edge between a pine plantation and a natural steppe ecosystem. Thirty pitfall traps were positioned along a transect line from 80 m in the forest to 208 m in the grassland at 10 fixed distances from the edge. The orthopteran assemblage of the pine plantation was depauperate in species and individuals and, with a few exceptions, lacked steppe species. We found no increase in species richness at the forest–grassland edge. In the grassland, Orthoptera species numbers increased steadily with increasing distance from the forest edge. Two-phase regression analysis revealed a traceable edge effect up to about 30 m into the grassland. This effect was exclusively caused by an increase in acridid species numbers, while tettigoniid species numbers showed no clear relation to edge distance. Correlation analysis of the habitat variables suggested that this pattern is a result of irradiance and soil temperature sums. Since acridids show species-specific temperature requirements for their development, shading of the soil surface prevents a number of species from completing their life cycle. We suggest that present trends of shrub encroachment and eutrophication of dry grassland habitats in eastern Austria are serious threats for a large part of the orthopteran fauna.     

Effect of climate change on mast-seeding species: frequency of mass flowering and escape from specialist insect seed predators

Global surface temperatures are expected to increase by several degrees in the next century, with potentially large but poorly understood impacts on ecological interactions. Here we propose potential effects of increased temperatures on ecologically dominant New Zealand grasses (Chionochloa spp.) that mass flower and mast seed. Twenty-two years’ data from five masting Chionochloa species in New Zealand showed that the cue for heavy flowering was unusually high temperature in the summer of the year before flowering. Attack by predispersal insect seed predators was much reduced in mast years, apparently because predator populations were satiated. Increased temperatures would greatly decrease interannual variation in Chionochloa flowering, allowing seed predator populations to increase and potentially to devastate the seed crop annually. Similar responses are likely in masting species worldwide. This previously unrecognized effect of global warming could have widespread impacts on temperate ecosystems.     

Long-term vegetation change in the Juncus squarrosus grassland at Moor House,northern England

Data from the long-term experiment on sheep grazing versus zero sheep grazing (i.e. in an enclosure) on the composition of the Juncus squarrosus grassland at the Moor House NNR are presented. The data have been analysed to assess change in (1) the abundance of individual species, (2) higher plant and bryophyte communities, and (3) vegetation structure. The higher plant data suggested that both the enclosed-and grazed plots were changing in the same direction, but the enclosed plot was moving much faster. The general tendency was towards a blanket bog vegetation dominated by Eriophorum vaginatum and Calluna vulgaris. Juncus squarrosus has declined very quickly in the enclosed plot, but there has also been a slower decline in the grazed one. A significant increase in Calluna vulgaris has occurred only in the enclosed plot. In contrast, the bryophyte data showed completely different successional trajectories in the two treatment plots.The vegetation structure changed markedly after release from grazing, with a decrease in phytomass, but increase in necromass in the lowest height strata. There was no noticeable change in structure over the 18 year period in the grazed plot.Particular problems found in this study were that some species either fluctuated widely in response, or changed in a curvilinear manner.