Susana Perelman

Patch structure and dynamics in a Patagonian arid steppe

Two patch types were recognized in the Occidental District of the Patagonian arid steppe: i) shrubs encircled by a ring of tussock grasses, and ii) tracts of scattered tussocks. Completeness of the ring of grasses around the three dominant shrubs was a function of shrub size. Average completeness was 62, 71 and 83%, respectively for the three dominant shrubs (Senecio filaginoides, Mulinum spinosum and Adesmia campestris). A model for the cyclic dynamics of the two patch types was proposed. It includes a building phase (grass ring construction), a mature phase (maximum ring completeness) and a degenerate phase. In this last phase, triggered by shrub death, completeness of the ring progressively decreases until remnant grasses become undistinguishable from the scattered tussocks patch type. Ring formation occurred independently of shrub species. Grass species were differentially associated to the two patch types and to rings of different shrub species. Cyclical patch dynamics influenced the pattern of resource utilization, since the shrub-ring patch, with a share of only 18% of cover, contributed 44% of the total primary productivity.

Grazing, Environmental Heterogeneity, and Alien Plant Invasions in Temperate Pampa Grasslands

Temperate humid grasslands are known to be particularly vulnerable to invasion by alien plant species when grazed by domestic livestock. The Flooding Pampa grasslands in eastern Argentina represent a well-documented case of a regional flora that has been extensively modified by anthropogenic disturbances and massive invasions over recent centuries. Here, we synthesise evidence from region-wide vegetation surveys and long-term exclosure experiments in the Flooding Pampa to examine the response of exotic and native plant richness to environmental heterogeneity, and to evaluate grazing effects on species composition and diversity at landscape and local community scales. Total plant richness showed a unimodal distribution along a composite stress/fertility gradient ranging several plant community types. On average, more exotic species occurred in intermediate fertility habitats that also contained the highest richness of resident native plants. Exotic plant richness was thus positively correlated with native species richness across a broad range of flood-prone grasslands. The notion that native plant diversity decreases invasibility was supported only for a limited range of species-rich communities in habitats where soil salinity stress and flooding were unimportant. We found that grazing promoted exotic plant invasions and generally enhanced community richness, whereas it reduced the compositional and functional heterogeneity of vegetation at the landscape scale. Hence, grazing effects on plant heterogeneity were scale-dependent. In addition, our results show that environmental fluctuations and physical disturbances such as large floods in the pampas may constrain, rather than encourage, exotic species in grazed grasslands.

Effects of Camponotus punctulatus ants on plant community composition and soil properties across land-use histories

Populations of the ant Camponotus punctulatusundergo demographic explosions after agricultural activities, buildingconspicuous, vegetation-covered soil mounds. We investigated the effects ofC. punctulatus on floristic composition and soilpropertiesalong a gradient of agricultural disturbance in Northeastern Argentina. Wesampled vegetation and soil “on” and “off” anthills in,at least, three replicate plots of each of the following situations thatrepresent an increasing gradient of soil disturbance: natural grasslands, sownpastures of Digitaria decumbens, sown pastures ofSetaria sphacelata, and recently abandoned rice fields.Sets of characteristic plant species for each of the land use histories, for“on” and “off” anthills as well as for anthills ofdifferent sizes were identified through Indicator Species Analysis. 64% of thevariation in plant community composition was mainly explained by land-usehistory which was associated to the first 2 axes of a Correspondence Analysisbased on the frequency of 126 species across all sites. At the replicate scale,Correspondence Analyses revealed patterns of plant species composition relatedto the presence and size of anthills. Larger mounds became enriched in species,especially herb weeds, in comparison to smaller mounds or samples gatheredoutside the anthills. A Principal Component Analysis of soil data revealed that71% of the variation in soil properties was explained by the presence ofanthills. Soils from “on” anthills were more fertile than soilsfrom“off” anthills, independent of land-use history. The fertilityeffect of C. punctulatus mounds in addition with thevegetation patterns observed along the gradient of anthill-sizes highlights theimportance of these ants at the landscape and local scales.

Phytochrome Control of the Arabidopsis Transcriptome Anticipates Seedling Exposure to Light

Phytochromes mediate a profound developmental shift when dark-grown seedlings are exposed to light. Here, we show that a subset of genes is upregulated in phytochrome B (phyB) mutants even before dark-grown Arabidopsis thaliana seedlings are exposed to light. Most of these genes bear the RY cis motif, which is a binding site of the transcription factor ABSCISIC ACID INSENSITIVE3 (ABI3), and the phyB mutation also enhances ABI3 expression. These changes in transcriptome have physiological consequences, because seedlings of the abi3 mutant showed enhanced responses to pulses of far-red light, whereas ABI3 overexpressers exhibited the opposite pattern. Seedlings of the wild type derived from seeds germinated in full darkness showed enhanced expression of genes bearing the RY cis motif and reduced responses to far-red light. We propose that, via changes in ABI3 expression, light, perceived mainly by phyB in the seed, generates a downstream transdevelopmental phase signal that preconditions the seedling to its most likely environment.

Farm and landscape level variables as indicators of sustainable land-use in the Argentine Inland-Pampa

Sustainable land-use evaluation in agricultural systems needs to accommodate the landscape mosaic. Landscape characteristics, together with data gathered by farmers, were used to classify farms according to a scale related to sustainable land-use. The value of this scale as a tool enabling land managers to use information recorded by farmers and to diagnose land-use sustainability as a means of improving their land-management strategies was evaluated. Sustainability values were not related to any landscape in particular; farms with high sustainability could be found adjacent to farms with low sustainability. This indicates two important facts. First, differing management alternatives were mainly controlled by human decisions that in some way disregarded the ecological systems where the farms were located. Second, the observed variability demonstrates that there is room for improvement, especially by reducing inputs, without harming stability or productivity. An examination of the effect of incoming technologies on sustainability suggests other variables that could be considered in the calculation of farm sustainability indexes, such as those reflecting crop water-use efficiency, soil physical and biological characteristics, biological indicators of wildlife status, and intensification of grazing or harvesting of biomass for human and animal use.

The role of a native tussock grass (Paspalum quadrifarium Lam.) in structuring plant communities in the Flooding Pampa grasslands, Argentina

The patches of Paspalum quadrifarium-dominated grasslands found atpresent could be remnants of the vegetation that defined the Pampas landscape inthe past. The mere presence of such physical structures should lead to systemsin which many other species are dependent upon both the autogenic creation ofsurface area for living space and the autogenic and allogenic modulation ofresources controlled by these structures. We carried out amensurative–comparative study in naturally occurring sites dominated byP. quadrifarium that occupy different positions within thelandscape in the Flooding Pampa. We found different species assemblages in thesestructurally homogeneous stands, related to the edaphic and topographicgradients. The comparison with sites from similar positions in the landscapewhere this native tussock-grass was absent showed that the dominance ofP. quadrifarium is a minor determinant of floristicdifferences, which are mainly controlled by abiotic factors. We assigned thesedominated grassland stands to previously delimited vegetation units for theFlooding Pampa grasslands and we compared them with the vegetation unitsassigned, in terms of composite properties of the community that may beindicators of ecosystem processes, such as biological invasions andproductivity. Our results show that this native tussock grass is associated withhigher floristic richness, higher representation of perennials and grasses andlower presence of alien plants. This homogeneous pattern of variation across thevegetation units would suggest that, despite the absence of dramatic changes incommunity composition, the dominance of this tussock grass plays an importantrole in structuring species diversity patterns.

Gene expression analysis of light-modulated germination in tomato seeds

Tomato (Solanum lycopersicum) seed germination can be inhibited by continuous irradiation with far-red light (FRc) and re-induced by a subsequent red light pulse. In this study, we carried out a global transcript analysis of seeds subjected to FRc inhibitory treatment, with and without a subsequent red light pulse, using potato cDNA microarrays. We also identified and characterized genes involved in light-modulated germination as elements of the phytochrome signalling pathway. Microarray data showed that the inhibition of germination by FRc involves the induction of a large number of genes and the repression of a significantly smaller quantity. Multivariate analysis established an underlying pattern of expression dependent on physiological treatment and incubation time, and identified different groups of genes associated with dormancy maintenance, inhibition and promotion of germination. We showed that ELIP, CSN6, SOS2 and RBP are related to the photocontrol of germination. These genes are known to participate in other physiological processes, but their participation in germination has not been suggested previously. Light quality regulates the tomato seed transcriptome during phytochrome-modulated germination through changes in the expression of certain sets of genes. In addition, ELIP and GIGANTEA were confirmed as components of the phytochrome A signalling pathway during FRc inhibition of germination.

Finding unexpected patterns in microarray data.

We describe the performance of a protocol based on the sequential application of unsupervised and supervised methods to analyze microarray samples defined by a combination of factors. Correspondence analysis is used to visualize the emerging patterns of three set of novel or previously published data: photoreceptor mutants of Arabidopsis grown under different light/dark conditions, Arabidopsis exposed to different types of biotic and abiotic stress, and human acute leukemia. We find, for instance, that light has a dramatic effect on plants despite the absence of the four major photoreceptors, that bacterial-, fungal-, and viral-induced responses converge at later stages of attack, and that sample preparation procedures used in different hospitals have large effects on transcriptome patterns. We use canonical discriminant analysis to identify the genes associated with these patters and hierarchical clustering to find groups of coregulated genes that are easily visualized in a second round of correspondence analysis and ordered tables. The unconventional combination of standard descriptive multivariate methods offers a previously unrecognized tool to uncover unexpected information.

Root thiophenes in Tagetes minuta L. accessions from Argentina: genetic and environmental contribution to changes in concentration and composition

Three wild Tagetes minuta accessions were collected from Buenos Aires, Mendoza, and Salta provinces in Argentina and were grown in the same environment to study the concentration and composition of root thiophenes, and the production of aerial biomass. The accessions showed quantitative, but not qualitative differences in thiophenes. Five thiophenes were identified. In the Buenos Aires and Salta accessions, concentrations of total thiophenes were independent of changes in aerial biomass production, but in the Mendoza accession we found a positive correlation between total thiophenes and aerial biomass. In the Mendoza accession we observed dramatic changes in the concentration of thiophenes between years. The composition of thiophenes in the Salta and Mendoza accessions was characterized by low concentrations of BBT and α-T and high concentrations of BBTOH, whereas thiophenes in the Mendoza accession had a higher concentration of BBTOH than did the Buenos Aires accession.

Floristic heterogeneity of flooding Pampa grasslands: a multi-scale analysis

Abstract The present paper describes vegetation heterogeneity at contrasting spatial scales in order to analyse patterns of floristic diversity and vegetation – environment relations in the Flooding Pampa grasslands of Argentina. The overall grassland flora contains a large proportion of exotic species, which are mostly annual forbs. At a regional scale, there is a latitudinal turnover in relative abundance of major grass tribes, and C3 grasses become increasingly common in grasslands at higher latitudes. The principal gradients in overall vegetation composition were associated with landscape-level changes in topography and soil chemistry. Both native and exotic species richness increased with topographic elevation, and markedly decreased in flood-prone habitats with acidic or saline soils. In remnants of tussock grassland, the predominant physiognomy of the Pampas in pre-settlement times, the presence of the tall native grass Paspalum quadrifarium is a strong determinant of local community structure, reducing the percentage of exotic species. Heterogeneity analysis at the community scale revealed a fine-grained species packing that was in sharp contrast with spatial mosaics observed in other grasslands under livestock grazing. At this scale, spatial variation in floristic composition correlated with changes in various soil parameters, but not with subtle differences in topographic relief. The studied grasslands possess some unique features that contribute towards a better understanding of how current vegetation heterogeneity is controlled by historical, environmental and management factors.