The local distribution of a perennial bunchgrass: biotic or abiotic control?

The present study was designed to investigate the relative importance of biotic versus abiotic factors in determining the distribution of species among heterogeneous environments. The composition of 70 quadrats of 0.25-m², located in a 13-m × 40-m region of a mown field in Durham, North Carolina, was defined through two sets of principal component scores representing soil and vegetation gradients in the study area. The first principal component in each of the analyses exhibited a monotonic increase in value along an elevational gradient characterizing the field. This represents a one-dimensional correlation structure between the background soil and vegetation variables. Secondary soil and vegetation gradients, represented by the remaining principal component axes, were for the most part uncorrelated.Regression analyses were used to study the relationships coupling the distribution of Danthonia sericea, a bunchgrass species, to the distribution of associated soil and vegetation gradients. The correlation of the distribution of Danthonia to the dominant soil/vegetation gradient was highly significant. In addition, strong, secondary correlations with the background vegetation remained after removal of variance associated with soil composition; the converse was, in general, not true. One exception involved a minor zinc gradient that exhibited a negative correlation with the distribution of Danthonia. A strong correlation was found coupling an interaction term associated with the primary soil/vegetation gradient to the distribution of Danthonia. The results suggest that the present distribution of Danthonia is modified to a large extent by competitive interactions with other plant species. However, the relative significance of the soil-by-vegetation interaction term also indicates that soil composition must be explicitly considered to properly understand the role of biotic interactions. Any one factor, biotic or abiotic, may modify the distribution of a species, but the way in which it modifies the distribution will depend directly upon the composition of the other factors making up the biotic and abiotic, environmental background.Abbreviations Danthonia = the species Danthonia sericea - PC = principal component - PCA = principal component analysis - SS = sum of squares     

The influence of intensive sheep grazing on genotypic differentiation in Danthonia linkii,D. richardsonii and D. racemosa on the New England Tablelands

Genotypic differentiation studies involving three native pasture grasses Danthonia linkii Kunth, D. richardsonii Cashmore and D. racemosa R.Br. were made, using populations both collected from the field and grown from selfed seed, to investigate the influence of the intensive grazing and high soil fertility associated with sheep camps on a number of morphological and developmental characters. Each species was represented by at least a pair of populations one of which was sampled from a sheep campsite, the other(s) from an adjacent site as close as possible to the camp but outside its influence. The sheep camp populations were generally more prostrate with shorter tillers, greater tiller numbers, later flowering time, and in one population group, a larger number of seeds set. These differences were more apparent in the parent populations collected from the field but grown under uniform conditions than in the F₁ populations produced from selfed seed. These population differences were interpreted as representing genotypic differentiation produced by intensive selection pressures introduced since the development of the sheep camps. They were certainly more intensive in populations drawn from sheep camps which had been in existence for a longer time. The selection pressures which produced the new populations also appeared to maintain a broad base of genetic variability rather than result in populations more uniform than the original.     

The influence of soil moisture on losses of buried seeds to fungi

Although soil fungi are likely to be a major cause of mortality for buried seeds, few ecological studies have examined the role these pathogens play in natural systems. In particular, few studies have investigated whether losses of seeds to soil fungi are habitat-dependent. We used fungicide treatments to investigate whether losses of buried seeds of four grasses (Bromus inermis, Danthonia spicata, Glyceria striata, and Poa pratensis) to soil fungi differed among meadows differing in soil moisture. We also applied water to some treatments, to determine whether this increased losses of seeds to fungi. For all four grasses, fungicide additions improved one or more measures of seed viability, though this effect was small. For Danthonia and Glyceria, fungicide was less likely to improve viability in dry meadows than in wet and/or mesic meadows. Adding water reduced some measures of viability of seeds of Danthonia and Poa in dry meadows, but fungicide partly counteracted these negative effects, suggesting that adding water reduced performance by increasing fungal attack. These results indicate that fungi represent a hazard for buried seeds of these species, particularly in wetter soils, and potentially may contribute to the reduction of populations of vulnerable species in wetter sites.     

EXPERIMENTAL EVIDENCE FOR GENETIC VARIATION IN COMPATIBILITY BETWEEN THE FUNGUS ATKINSONELLA HYPOXYLON AND ITS THREE HOST GRASSES

Variation in compatibility has been documented within and among several natural plant populations infected by fungal pathogens. In this study, seeds and isolates of the fungus Atkinsonella hypoxylon (Ascomycetes, Clavicipitaceae) were collected from three populations of the grass Danthonia spicata, two populations of D. compressa, and four populations of Stipa leucotricha. Each fungal strain was reciprocally inoculated into seedlings grown in aseptic culture from its original host population, into seedlings from other conspecific host populations, and into seedlings from the other two host species. There were three distinct patterns of compatibility, as evidenced by the ability of the fungus to grow on the seedling and to colonize new tillers. Fungal strains from one host genus were incompatible with seedlings from the other host genus. Strains from the two Danthonia species were broadly compatible among Danthonia populations and had very high rates of infection, while strains from Stipa also were broadly compatible among Stipa populations but had relatively low rates of infection. Literature surveys indicate that, in contrast to pathogenic microorganisms, mutualistic microorganisms typically exhibit broad patterns of compatibility among hosts, which lack resistance to infection. The effect of A. hypoxylon on host fitness is most detrimental in Stipa, where the fewest seedlings became infected, and most beneficial in Danthonia, where most seedlings became infected.     

Isozyme evidence for host races of the fungus Atkinsonella hypoxylon (Clavicipitaceae) infecting the Danthonia (Poaceae) complex in the southern Appalachians

On granite outcrops around Highlands, North Carolina four sympatric Danthonia grass species are infected by the fungus Atkinsonella hypoxylon (Clavicipitaceae). Danthonia epilis and D. sericea (rare hosts) are infected only in this small region, although they range more widely, while D. compressa and D. spicata (widespread hosts) are infected throughout their ranges in eastern North America. To test the hypothesis that infection of the rare hosts has recently spread from the widespread hosts, the genetic structure of fungal populations on different Danthonia hosts was investigated by isozyme electrophoresis. Two hundred isolates were collected from 46 sites and analyzed for ten polymorphic isozyme loci to examine levels of variation, genetic differentiation, and gene flow among fungal populations infecting different hosts. Genetic identities (I) indicated that isolates from within each of the widespread and rare host species pairs were homogeneous (I > 0.99), but the pairs were highly differentiated (0.66 < I < 0.69). With one exception there was no overlap in fungal genotypes isolated from the widespread hosts (12 genotypes) vs. the rare hosts (seven genotypes). Two plants of D. compressa growing sympatrically with infected D. epilis at one site were infected with a genotype characteristic of the latter species. Estimates of gene flow suggest a high degree of host-mediated reproductive isolation in A. hypoxylon, indicating that the fungus forms distinct, long-standing host races or sibling species in the southern Appalachians.     

MITOCHONDRIAL DNA VARIATION IN THE FUNGUS ATKINSONELLA HYPOXYLON INFECTING SYMPATRIC DANTHONIA GRASSES

The purpose of this study was to determine how host identity and geographic proximity were related to genetic variation in the fungus Atkinsonella hypoxylon infecting four sympatric Danthonia grasses. We analyzed 192 A. hypoxylon isolates from 48 geographic sites for mitochondrial DNA (mtDNA) variation by restriction digestion of total DNA with EcoRI, BamHI, and PstI, and subsequent hybridization with purified A. hypoxylon mtDNA. Thirtynine haplotypes were identified. UPGMA cluster analysis showed that mtDNA type is highly correlated with host-species group; isolates from Danthonia compressa and D. spicata formed one branch of the phenogram, and isolates from D. epilis and D. sericea formed the other. Restriction maps of the most common mtDNA haplotypes infecting each host-species pair revealed a 30-kb size difference and a minimum of eight length changes and one restrictionsite change between them. Mapping of the mutation differences among all haplotypes occurring at North Carolina sites resulted in two distinct gene trees corresponding to the two Danthonia species groups, corroborating the phenetic analysis. The results indicate a high degree of host-dependent isolation and establish the existence of host races in A. hypoxylon. Possible mechanisms responsible for this isolation are discussed. Little differentiation existed between isolates from within a Danthonia species pair, and some variation was explained by geographic origin. Analysis of progeny from a natural sexual cross revealed that mitochondria are maternally inherited in A. hypoxylon.     

VARIATION IN THE DEGREE OF CLEISTOGAMY WITHIN AND AMONG SPECIES OF THE GRASS DANTHONIA

North American species of the grass Danthonia bear distinct chasmogamous and cleistogamous flowers. Four taxa occurring in North Carolina (D. compressa, D. epilis, D. sericea, and D. spicata) were examined for variation in the degree of cleistogamy. The flowering culms bear a single terminal panicle consisting of 4 to 12 spikelets of chasmogamous flowers. In each leaf axil, at the nodes of the flowering culm, is a single spikelet of cleistogamous flowers completely surrounded by the leaf sheath. The percentage of cleistogamous flowers produced on any culm depends on the number of chasmogamous and cleistogamous spikelets and the number of flowers in each type of spikelet. All four characters vary among the taxa examined. Danthonia compressa produces, on the average, 50% cleistogamous flowers; D. spicata, 25% cleistogamous flowers; D. sericea and D. epilis, 5% cleistogamous flowers. The degree of cleistogamy in D. spicata is associated with certain habitat features. Populations from mountain sites, disturbed sites, and non-woodland sites produced higher percentages of cleistogamous flowers than did populations from piedmont, undisturbed, and woodland sites, respectively. Grazing may favor increased cleistogamy because cleistogamous flowers are produced lower on the plant. In North Carolina, the most frequently grazed Danthonia taxa also produce the highest percentage of cleistogamous flowers.     

Grassland responses to multiple disturbances on the New England Tablelands in NSW,Australia

Disturbances have played a significant role in shaping vegetation patterns following European settlement and agricultural development in Australia, particularly over the last 100 years. However, little is known about the temporal dynamics of plant communities in relation to disturbances and their interactions. In this study we examined the response and recovery of temperate grassland communities to disturbance, using a multi-factorial experiment involving grazing exclusion (absent and present), fire (absent and present), soil cultivation (none, 5 and 20 cm) and soil amendment (none, fertiliser and fertiliser plus clover seeds) on the New England Tablelands in NSW, Australia. Temporal patterns of plant communities were analysed using detrended correspondence analysis for eight surveys over 24 months. Vegetation patterns at each survey were analysed using principal components analysis. The effects of treatments on malleability (Bray–Curtis dissimilarity) of plant communities were analysed using a linear mixed model, and the relationships between malleability and plant species groups were depicted using a generalised additive model and further analysed using a linear model. Perennial native grasses and a non-native forb (Hypochaeris radicata) initially dominated the vegetation, but after the disturbances H. radicata and other non-native species dominated. Compositional changes from the initial states were greatest in the first spring (7 months after treatment application), and then the vegetation tended to recover towards its original state. Soil cultivation resulted in the greatest deviation in community composition, followed by soil amendment, fire, with grazing exclusion the least. The recovery process and rate of recovery varied with treatment reflecting the dominance of soil cultivation and its interactions with other forms of disturbances. Soil amendment and grazing exclusion tended to reduce the effects of soil cultivation. Malleability was negatively related to perennial native grasses; positively to other non-native species, annual native grasses and perennial native sedges/rushes; and negatively to H. radicata when its cover was below 18%, but positively when above 18%. The degree of malleability reflected the high resilience of the vegetation to disturbance, and was mainly due to the recovery of perennial native grasses and H. radicata. This resilience demonstrated that the small-scale disturbances did not cause vegetation to cross an ecological threshold and that the present vegetation is resilient to common disturbances occurring at small scales. The results also suggest (1) that the present vegetation has developed mechanisms to adapt to these disturbances, (2) the importance of disturbance scale or (3) that the ecological threshold had already been crossed and the present vegetation is in a degraded state compared with its original state before the end of the 19th century.     

Effect of Gap Width and Turf Type on the Establishment of the Australian Forb Bulbine bulbosa

This study investigates the influence of gap width and turf type on the growth of planted seedlings of the Australian forb Bulbine bulbosa (bulbine lily) and subsequent recruitment of this species from self-sown seed. In a low-productivity turf of Danthonia setacea (bristly wallaby grass), planted Bulbine seedlings established satisfactorily in all gaps 50 mm wide or larger. In highly productive turfs of Festuca arundinacea (tall fescue) successful, establishment and growth of planted seedlings required a competition-free gap more than 200 mm wide. Successful recruitment of self-sown Bulbine seedlings was observed in all gap widths in Danthonia turfs. In Festuca, however, seedling recruitment was low, irrespective of gap width. The results are related to establishing Bulbine bulbosa in habitat reconstruction programs in southeastern Australia.     

Genetic effects of habitat contraction on Lumholtz's tree-kangaroo (Dendrolagus lumholtzi) in the Australian Wet Tropics

Lumholtz's tree-kangaroo (Dendrolaguslumholtzi) is one of two species oftree-kangaroo resident in the tropicalrainforests of north-eastern Australia. Thespecies is confined to the Wet Tropics region,with its distribution centred on the AthertonTablelands. While D. lumholtzi wasexposed to periodic large-scale climaticfluctuations during the Quaternary that haveeffectively acted as natural fragmentationevents, the species is currently under pressurefrom anthropogenic disturbance and habitatfragmentation. This study aimed to assess thelevel of genetic diversity in D.lumholtzi by examining hypervariablemicrosatellite loci and the control region ofmitochondrial DNA (mtDNA) in 21 individualsfrom a single 20 ha forest fragment, and from afurther 24 animals collected throughout theAtherton Tablelands. Results suggest that D. lumholtzi has relatively low levels ofgenetic diversity which is uniformlydistributed throughout the Atherton Tablelands;a pattern congruent with data from many othervertebrates endemic to the Australian WetTropics. It is suggested that Pleistoceneclimatic fluctuations, which resulted inlarge-scale rainforest contractions, haveimposed an ancient population bottleneck on theancestral D. lumholtzi population. Theapparent over-riding influence of thesenatural, historical effects on the geneticstructure of D. lumholtzi populations,will complicate attempts to assess the geneticimpact of current anthropogenic habitat lossand fragmentation.     

First record of the genus Schizothorax in rivers of the Central Himalayas in China

A total of 40 specimens of the genus Schizothorax (Cyprinidae: Schizothoracinae), including 10 matured males, 19 matured females and 11 juveniles, were captured from the Kirong Tsangpo River in China, which is located in the southern slope of the Central Himalayas. These specimens are identified as Schizothorax richardsonii (Grey, 1832) based on morphological characters and molecular analyses using mitochondrial Cyt b gene sequences. The Kirong population of S. richardsonii is relatively isolated from other populations in the Himalayas and has low genetic diversity. This is the first record of the genus Schizothorax fish in rivers of the Central Himalayas in China. As S. richardsonii is a vulnerable species on the IUCN Red List, a protection plan should be conducted to reduce the impact of anthropogenic disturbance by monitoring the natural population dynamics and assessing the ecological determinants of its distribution.     

The phylogeny of the austral grass subfamily Danthonioideae: Evidence from multiple data sets

The grass subfamily Danthonioideae is one of the smaller in the family. We utilize DNA sequence data from three chloroplast regions (trnL, rpoC2 and rbcL) and one nuclear region (Internal Transcribed Spacer; ITS) both singly and in combination to elucidate the relationships of the genera in the subfamily. The topology retrieved by the ITS region is not congruent with that of the plastid data, but this conflict is not strongly supported. Nine well-supported clades are retrieved by all data sets. The relationships at the base of the subfamily are clearly established, comprising a series of three clades of Merxmuellera species. The earliest diverging clade probably does not belong in Danthonioideae. The other two clades are centered in the tropical African mountains and Cape mountains respectively. A clade of predominantly North and South American Danthonia species as well as D. archboldii from New Guinea is retrieved, but the African and Asian species of Danthonia are related to African species of Merxmuellera, thus rendering Danthonia polyphyletic. The relationships of the Danthonia clade remain equivocal, as do those of the two Cortaderia clades, the Pseudopentameris and Rytidosperma clades. Paseka Mafa was tragically killed in a vehicle accident in July 2001. This paper includes information he collected during the course of his MSc in Systematics and Biodiversity Science at the University of Cape Town.     

Experiments on tree and shrub establishment in temperate grassy woodlands: Seedling survival

Abstract Experimental studies of the emergence of shrubs and trees in grassy woodlands on the New England Tablelands, New South Wales, Australia, showed that emergence of seedlings was determined by seed supply, seed predators and seed burial. The survival of these seedlings was then observed in an experiment to test the effects of previous land use, grazing by stock and grazing by other vertebrates. The fate of four eucalypts and six shrub species was followed over 5 years. Across all species more than 50% mortality occurred in the first 6 months prior to the imposition of grazing treatments. These deaths were attributed to the combined effects of insect defoliation, cold, and low soil moisture. Average mortality over all treatments showed two distinct trends: eucalypts and one unpalatable shrub (Leptospermum) had greater than 1% survival over 5 years, whereas Acacia, Cassinia, Indigophera, Lomatia and Xanthorrhoea either had very low or no survival after 5 years. The effect of livestock grazing on seedling numbers was rarely detected because of patchy emergence and mortality due to other causes. However, proportional hazard regression models showed that there was often an increased hazard associated with grazing or grazed landscapes. Overall, those species with high hazard coefficients associated with stock are rare in the landscape, whereas those with lesser risk are more common. Recruitment is likely to be an extremely rare event because the highest proportion of germinable seed sown that survived to a juvenile stage was 0.42% and the mean across all species was 0.12%. No natural recruitment of shrub species was observed over 5 years of observation, suggesting that recruitment is episodic and disturbance driven. Enhancing natural ‘regeneration’ of woody plants under these circumstances may be more challenging than simply fencing off remnants.     

Adaptations and biomass production of two grasses in response to waterlogging and soil nutrient enrichment

We analysed the response of two grass species, Danthonia montevidensis and Paspalum dilatatum to waterlogging, soil-nutrient enrichment and the combination of both factors. Waterlogging did not affect total biomass of D. montevidensis, but it slightly promoted growth of P. dilatatum. Most analysed variables showed no significant interaction between fertilization and waterlogging. Therefore, waterlogging does not produce a detrimental effect either in the growth of these species or in their response capacity to stimulating growth factors, such as fertilization.     

Direct and indirect effects of exotic annual grasses on species composition of a South Australian grassland

Abstract Invasion by Mediterranean annual grasses, such as Avena L. spp. and Bronms L. spp, is one of the major threats to temperate perennial grassland. This study investigated the effects of annual grasses and their litter on the species composition of a grassland near Burra, South Australia. The placement of annual grass litter on soil samples in the glasshouse decreased the establishment or growth of several exotic annual dicots. In the field the addition of annual grass litter slightly decreased the frequency of Danthonia Lam. & DC. tussocks. Furthermore, litter strongly reduced the species richness from 13 species in plots with no litter to nine species in plots with the highest litter level, mainly by decreasing the frequency of common exotic dicots. Native dicot frequency similarly appeared to be decreased by litter addition. In addition to the negative effects of their litter, annual grasses also directly competed with perennial grasses. The magnitude of the competitive effect varied systematically along a slope, suggesting that other factors such as soil properties may control competitive inter actions. The biomass of annual grasses also tended to increase with the addition of their own litter. This combination of positive and negative feedback mechanisms suggests that brief periods favourable for annual grasses, either through management changes or environmental conditions, can lead to persistent changes in the species composition of the system.     

Seeking a sound index of competitive intensity: Application to the study of biomass production under elevated CO2 along a nitrogen gradient

Abstract The aim of this paper is to evaluate (i) the relevance of currently proposed measures of competitive intensity to elevated CO₂ studies by means of an example analysis, hypothesizing that competitive intensity is increased under elevated CO₂; and (ii) an alternative method for predicting species performance in mixtures from monocultures. Relative competition intensity (RCI), relative physiological performance and normalized ecological performance were used to characterize the competitive ability of two grasses (Danthonia richardsonii Cashmore, Phalaris aquatica L.) and two legumes (Lotus pedunculatus Cav., Trifolium repens L.) grown in monocultures and mixtures of the four species along a N gradient under conditions of ambient and elevated CO₂. Relative competition intensity could not be used to predict competitive outcomes in mixtures under conditions of elevated CO₂ because it failed to account for changes in the size of interspecific differences along the N gradient and between CO₂ concentrations. Relative physiological performance and relative ecological performance were more useful for investigating biomass production in mixtures and to predict species performance in mixtures from their performance in monocultures. Both indices of relative performance showed an increase in competitive intensity under elevated CO₂ conditions. They also showed a decrease in competitive intensity with increasing N supply over most of the range of N supply, but a reversal of that trend at high levels of N supply. The merits and utility of these relative performance indices for elevated CO₂ are discussed.     

Reduced soil compaction enhances establishment of non-native plant species

Many studies have shown that soil disturbance facilitates establishment of invasive, non-native plant species, and a number of mechanisms have been isolated that contribute to the process. To our knowledge no studies have isolated the role of altered soil compaction, a likely correlate of many types of soil disturbance, in facilitating invasion. To address this, we measured the response of seeded non-native and native plant species to four levels of soil compaction in mesocosms placed in an abandoned agricultural field in the Methow Valley, Washington, USA. Soil compaction levels reflected the range of resistance to penetration (0.1–3.0 kg cm⁻²) measured on disturbed soils throughout the study system prior to the experiment. Percent cover of non-native species, namely Bromus tectorum and Centaurea diffusa, decreased by 34% from the least to the most compacted treatments, whereas percent cover of native species, mostly Pseudoroegneria spicata and Lupinus spp., did not respond to compaction treatments. Experimental results were supported by a survey of soil penetration resistance and percent cover by species in 18 abandoned agricultural fields. Percent cover of B. tectorum was negatively related to soil compaction levels, whereas none of the native species showed any response to soil compaction. These results highlight a potentially important, though overlooked, aspect of soil disturbance that may contribute to subsequent non-native plant establishment.     

Effect of Seed Source, Topsoil Removal, and Plant Neighbor Removal on Restoring California Coastal Prairies

Grasslands are hot spots of biodiversity but are now widely threatened by changes in patterns of disturbances, such as grazing and fire regimes, exotic species invasions, and cultivation. The goal of this experiment was to find the most appropriate combination of treatments to reintroduce Danthonia californica, a formerly dominant perennial bunchgrass, into degraded California coastal prairies. Danthonia californica was sown from seed and transplanted at two sites and at two grazing intensities (grazed/ungrazed) in a multifactorial experiment testing the effects of (1) local versus nonlocal seed sources; (2) topsoil removal; and (3) reduction of plant neighbors. Seed emergence was very low, suggesting that transplanting may be a better option to reintroduce D. californica. Although transplants grown from nonlocal seeds survived better initially at both sites, transplants from local seeds had higher survival after 1.5 year at one site. This suggests that short‐term plant establishment studies may be misleading. Topsoil removal greatly enhanced transplant survival, and neighbor removal primarily increased transplant growth. Our results suggest that removing topsoil prior to transplanting seedlings grown from local seeds is the most promising method to reintroduce D. californica. However, the benefits of removing topsoil to provide safe sites for plant establishment should be weighed carefully against potential negative effects on the native seed bank and microbial communities on a site‐specific basis .     

Anatomical variability and secondary sexual characteristics in Pomphorhynchus laevis (Müller, 1776) (Acanthocephala)

A brief historical survey demonstrates the differences in opinion concerning the taxonomic status of species within the genus Pomphorhynchus. The anatomy of P. laevis from a single population in the River Severn, England was found to be highly variable. Much of this variability is produced as individuals grow. P. laevis possesses circumbursal and circumpenial rings of receptors on the male copulatory bursa. Specimens from Eire and the R. Severn had identical arrangements of these receptors. A preliminary appraisal of the value of secondary sexual characters as criteria of specific identity in the Acanthocephala is presented. ac]19860721     

Controlling invasive Arrhenatherum elatius and promoting native prairie grasses through mowing

Abstract. Control of invasive plants is a key element of conservation and restoration efforts. We report results from a five‐year field experiment in western Oregon, USA that evaluates the effects of different mowing regimes on the non‐native and invasive perennial grass Arrhenatherum elatius, the native perennial prairie grasses Danthonia californica and Festuca roemeri, and groups of other native and non‐native grasses and forbs. Eight treatments were designed to test hypotheses about the role of mowing height and time of application on the plant community. Differences among treatments emerged only after two or three years of treatment. This delay in response reinforces the need for long‐term studies. Annual mowing was most effective at reducing Arrhenatherum cover and flowering when applied in late spring or early summer, the time of Arrhenatherum flowering and expected maximum above‐ground allocation. Double mowing and mowing at 15 cm were more effective in reducing Arrhenatherum cover than were single mowing and mowing at 50 cm. All treatments increased the cover and flowering of Danthonia. Statistical model analysis showed that increases in cover and flowering of the native grass Danthonia were caused by its release from suppression by Arrhenatherum. Fouryears of the most effective treatment, mowing at 15 cm in late spring, converted an Arrhenatherum‐dominated site to a prairie dominated by native grasses. This is one of the few documented cases of pest plant control causing an increase in native plant abundance. These results show that mowing, properly applied, can be an effective tool for restoring degraded, Arrhenatherum‐dormnated prairies.