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31.
Annual variation and influence of climate on the ring width and wood hydrosystem of Prosopis flexuosa DC trees using image analysis 总被引:1,自引:0,他引:1
María Alejandra Giantomasi Fidel Alejandro Roig Juñent Pablo Eugenio Villagra Ana Marina Srur 《Trees - Structure and Function》2009,23(1):117-126
We developed chronologies based on the width of tree rings, total area of vessels, and the number of vessels per tree ring
of the Prosopis flexuosa wood samples from the xerophytic woodlands of central Argentina. We evaluated the influence of climate on these tree-ring
characteristics considering the period from 1940 to 2004 (65 years). The width of the rings, the number of vessels, and the
total area of vessels were positively influenced by regional precipitation corresponding to the seasonalized November to December
period, which reflects the importance of the water availability in the initial stage of the formation of the wood. The width
of the rings and the total area of vessels were negatively influenced by temperature during the same period, while the number
of vessels was not significantly correlated with temperature. The high temperatures in spring increase evapotranspiration,
which reduces water availability to plants and results in an inverse growth response. This study was the first to develop
chronologies based on anatomical characters of wood from the arid and semiarid regions of South America and with significant
applications in ecological and climatic studies. 相似文献
32.
Grassland connectivity explains entomophilous plant species assemblages in an agricultural landscape of the Pampa Region,Argentina 下载免费PDF全文
The Pampa grassland of Argentina is one of the most highly threatened biomes in the world. A high proportion of the original grassland cover has been transformed into land for agriculture or degraded. In the southern part of the region, fragmented semi‐natural grasslands over exposed rock still persist and connectivity between them is assumed to be crucial for maintaining viable populations. We quantified overall connectivity of grassland patches in a sector of the Southern Pampa region, and investigated the degree to which landscape connectivity explains entomophilous plant species assemblages in a subset of patches. We characterized each of the 301 patches in the landscape by their degree of intra‐patch and inter‐patch connectivity based on graph theory, and considering threshold dispersal distances from 100 to 1000 m. We surveyed entomophilous plant species in 39 grassland patches and classified the species in three categories (annual herbs, perennial herbs and shrubs) considering their different growth form and longevity. The influence of connectivity variables on entomophilous plant species assemblages variation was explored using Canonical Correspondence Analysis. Although grassland patches were poorly connected at all threshold distances, some of them were found to be critical for global connectivity. Connectivity significantly explained total, annual‐biennial and shrub assemblages for all threshold dispersal distances (6–13% of total variation). Variation in annual species assemblages was associated with intra‐patch and inter‐patch connectivity at short distance (100 m), while variation in shrub species assemblages was explained by intra‐patch and inter‐patch connectivity for distances between 100 m and 1000 m. This study evidenced the low connectivity of the study system, allowed the identification of critical areas for conservation, and provided valuable information to develop management strategies in increasingly human‐dominated landscapes. 相似文献
33.
The complete mitochondrial DNA (mtDNA) sequence was determined for the phytopathogenic fungus Fusarium oxysporum. It is 34,477 bp long, maps circularly, and encodes for 14 protein-coding, 25 tRNA and 2 rRNA genes. The nucleotide and amino acid data sets from its 14 concatenated protein-coding mitochondrial (mt) genes were used along with gene order comparisons for an extensive phylogenetic study of the Subphylum Pezizomycotina. Our results are in agreement with current taxonomic treatments and additionally provide better statistical support for all relationships within Pezizomycotina when compared to analyses based on single or few gene data sets. The gene order of F. oxysporum was consistent with that established in the order Hypocreales (Class: Sordariomycetes) and enhanced previous suppositions on the ancestral state of Sordariomycetes. In comparison with mt genomes of the other orders it added further insights to the evolution of Pezizomycotina. 相似文献
34.
Malena Lorente Javier N. Gelfo Guillermo M. Lpez 《Lethaia: An International Journal of Palaeontology and Stratigraphy》2019,52(2):244-259
Here, we describe the first skeletal remains of Notostylops recovered from middle Eocene levels of the Sarmiento Formation, Patagonia, Argentina. The remains include two teeth of Notostylops murinus, the axis, vertebral bodies, a rib, a left humerus, both radii, two metapodials, two phalanges, the pelvis, a right femur, a right calcaneus and several broken bones. Radial bones are not fused to ulnas, and are shorter than the humerus, very generalized, with an oval head, a marked neck and a radial tubercle. The humerus and the femur show pronounced insertion structures. Our analysis suggests that the appendicular skeleton of Notostylops is too generalized and shares several features with that of terrestrial rodents as Sciuridae. Unlike the appendicular skeletons of cursorial or saltatorial mammals, which restrict mobility, the skeleton of Notostylops indicates the ability to make a variety of different movements, as would be expected for terrestrial, fossorial or arboreal mammals. This skeleton gives new information about the locomotor behaviour of notoungulates, particularly in their basal forms. The results will also allow the identification of isolated notoungulate bones and raise questions about the previous taxonomic assignment of postcrania to Pleurostylodon. 相似文献
35.
Daniel Poveda-Martínez Laura Varone Malena Fuentes Corona Stephen Hight Guillermo Logarzo Esteban Hasson 《Molecular ecology》2022,31(1):356-371
Surveys of patterns of genetic variation in natural sympatric and allopatric populations of recently diverged species are necessary to understand the processes driving intra- and interspecific diversification. The South American moths Cactoblastis cactorum, Cactoblastis doddi and Cactoblastis bucyrus are specialized in the use of cacti as host plants. These species have partially different geographic ranges and differ in patterns of host plant use. However, there are areas that overlap, particularly, in northwestern Argentina, where they are sympatric. Using a combination of genome-wide SNPs and mitochondrial data we assessed intra and interspecific genetic variation and investigated the relative roles of geography and host plants on genetic divergence. We also searched for genetic footprints of hybridization between species. We identified three well delimited species and detected signs of hybridization in the area of sympatry. Our results supported a hypothetical scenario of allopatric speciation in the generalist C. cactorum and genetic interchange during secondary geographic contact with the pair of specialists C. bucyrus and C. doddi that probably speciated sympatrically. In both cases, adaptation to new host plants probably played an important role in speciation. The results also suggested the interplay of geography and host plant use as drivers of divergence and limiting gene flow at intra and interspecific levels. 相似文献
36.
Galectin‐1 Triggers Epithelial‐Mesenchymal Transition in Human Hepatocellular Carcinoma Cells 下载免费PDF全文
37.
Based on the crystal structure of human glutathione transferase M1-1, cysteine residues were introduced in the substrate-binding site of a Cys-free mutant of the enzyme, which were subsequently alkylated with 1-iodoalkanes. By different combinations of site-specific mutations and chemical modifications of the enzyme the enantioselectivity in the conjugation of glutathione with the epoxide-containing substrates 1-phenylpropylene oxide and styrene-7,8-oxide were enhanced up to 9- and 10-fold. The results also demonstrate that the enantioselectivity can be diminished, or even reversed, by suitable modifications, which can be valuable under some conditions. The redesign of the active-site structure for enhanced or diminished enantioselectivities have divergent requirements for different epoxides, calling for a combinatorial approach involving alternative mutations and chemical modifications to optimize the enantioselectivity for a targeted substrate. This approach outlines a general method of great potential for fine-tuning substrate specificity and tailoring stereoselectivity of recombinant enzymes. 相似文献
38.
The phylogenetic structure of plant–pollinator networks increases with habitat size and isolation 下载免费PDF全文
Marcelo A. Aizen Gabriela Gleiser Malena Sabatino Luis J. Gilarranz Jordi Bascompte Miguel Verdú 《Ecology letters》2016,19(1):29-36
Similarity among species in traits related to ecological interactions is frequently associated with common ancestry. Thus, closely related species usually interact with ecologically similar partners, which can be reinforced by diverse co‐evolutionary processes. The effect of habitat fragmentation on the phylogenetic signal in interspecific interactions and correspondence between plant and animal phylogenies is, however, unknown. Here, we address to what extent phylogenetic signal and co‐phylogenetic congruence of plant–animal interactions depend on habitat size and isolation by analysing the phylogenetic structure of 12 pollination webs from isolated Pampean hills. Phylogenetic signal in interspecific interactions differed among webs, being stronger for flower‐visiting insects than plants. Phylogenetic signal and overall co‐phylogenetic congruence increased independently with hill size and isolation. We propose that habitat fragmentation would erode the phylogenetic structure of interaction webs. A decrease in phylogenetic signal and co‐phylogenetic correspondence in plant–pollinator interactions could be associated with less reliable mutualism and erratic co‐evolutionary change. 相似文献
39.
The lack of long-term records of productivity is a critical limitation to the study of ecosystem dynamics. Annual rings, a
measure of growth in woody species, are a useful tool to document ecosystem dynamics. Time series of the Normalized Difference
Vegetation Index (NDVI) provide estimates of ecosystem productivity through satellite-derived data on the fraction of photosynthetic
active radiation absorbed by vegetation. In the Patagonian steppes, we relate changes in NDVI to interannual variations in
the radial growth of the shrub Anarthrophyllum rigidum. A widely distributed network of 15 ring-width chronologies of A. rigidum was used to estimate changes in NDVI across the Patagonia steppe (35°–50°S). In most sites, interannual variations in shrub
growth and NDVI are regulated by winter precipitation. The water accumulated in the soil during winter is used by A. rigidum during the growing season, concurrent with the maximum NDVI values. At 10 from the 15 selected sites, variations in the radial
growth of A. rigidum explained between 23 and 62% of the total variance in seasonal NDVI, suggesting that the A. rigidum growth at some sites provides good estimates of productivity in the Patagonian shrubby steppes during the growing season.
However, we were unable to determine clear relationships between radial growth and NDVI at high-elevation mountainous sites
or where intensive grazing by sheep masked the effect of climate variability on shrub growth. We conclude that dendrochronological
methods can complement other estimates to reconstruct variations of productivity, supplementing and extending the few short
records available in the Patagonian steppe. 相似文献
40.
Genome-based prediction of testcross values in maize 总被引:1,自引:0,他引:1
Albrecht T Wimmer V Auinger HJ Erbe M Knaak C Ouzunova M Simianer H Schön CC 《TAG. Theoretical and applied genetics. Theoretische und angewandte Genetik》2011,123(2):339-350
This is the first large-scale experimental study on genome-based prediction of testcross values in an advanced cycle breeding
population of maize. The study comprised testcross progenies of 1,380 doubled haploid lines of maize derived from 36 crosses
and phenotyped for grain yield and grain dry matter content in seven locations. The lines were genotyped with 1,152 single
nucleotide polymorphism markers. Pedigree data were available for three generations. We used best linear unbiased prediction
and stratified cross-validation to evaluate the performance of prediction models differing in the modeling of relatedness
between inbred lines and in the calculation of genome-based coefficients of similarity. The choice of similarity coefficient
did not affect prediction accuracies. Models including genomic information yielded significantly higher prediction accuracies
than the model based on pedigree information alone. Average prediction accuracies based on genomic data were high even for
a complex trait like grain yield (0.72–0.74) when the cross-validation scheme allowed for a high degree of relatedness between
the estimation and the test set. When predictions were performed across distantly related families, prediction accuracies
decreased significantly (0.47–0.48). Prediction accuracies decreased with decreasing sample size but were still high when
the population size was halved (0.67–0.69). The results from this study are encouraging with respect to genome-based prediction
of the genetic value of untested lines in advanced cycle breeding populations and the implementation of genomic selection
in the breeding process. 相似文献