Effects of experimental warming and drought on biomass accumulation in a Mediterranean shrubland

We studied the effects of experimental warming and drought on the plant biomass of a Mediterranean shrubland. We monitored growth at plant level and biomass accumulation at stand level. The experimentation period stretched over 7 years (1999–2005) and we focused on the two dominant shrub species, Erica multiflora L. and Globularia alypum L. and the tree species Pinus halepensis L. The warming treatment increased shoot elongation in E. multiflora, and the drought treatment reduced shoot elongation in G. alypum. The elongation of P. halepensis remained unaffected under both treatments. The balance between the patterns observed in biomass accumulation for the three studied species in the drought plots (reduction in E. multiflora and P. halepensis and increase in G. alypum) resulted in a trend to reduce 33% the biomass of the drought treatment plots with respect to the untreated plots, which almost doubled their biomass from 1998 to 2005. The results also suggest that under drier conditions larger accumulation of dead biomass may occur at stand level, which combined with higher temperatures, may thus increase fire risk in the Mediterranean area.     

Adaptation and cross-adaptation of <Emphasis Type="Italic">Listeria monocytogenes</Emphasis> and <Emphasis Type="Italic">Salmonella enterica</Emphasis> to poultry decontaminants

Information on the potential for acquired reduced susceptibility of bacteria to poultry decontaminants occurring is lacking. Minimal Inhibitory Concentrations (MICs) were established for assessing the initial susceptibility and the adaptative and cross-adaptative responses of four bacterial strains (Listeria monocytogenes serovar l/2a, L. monocytogenes serovar 4b, Salmonella enterica serotype Typhimurium, and S. enterica serotype Enteritidis) to four poultry decontaminants (trisodium phosphate, acidified sodium chlorite -ASC-, citric acid, and peroxyacetic acid). The initial susceptibility was observed to differ among species (all decontaminants) and between Salmonella strains (ASC). These inter- and intra-specific variations highlight (1) the need for strict monitoring of decontaminant concentrations to inactivate all target pathogens of concern, and (2) the importance of selecting adequate test strains in decontamination studies. MICs of ASC (0.17±0.02 to 0.21±0.02 mg/ml) were higher than the U.S. authorized concentration when applied as a pre-chiller or chiller solution (0.05 to 0.15 mg/ml). Progressively increasing decontaminant concentrations resulted in reduced susceptibility of strains. The highest increase in MIC was 1.88 to 2.71-fold (ASC). All decontaminants were shown to cause cross-adaptation of strains between both related and unrelated compounds, the highest increase in MIC being 1.82-fold (ASC). Our results suggest that the in-use concentrations of ASC could, in certain conditions, be ineffective against Listeria and Salmonella strains. The adaptative and cross-adaptative responses of strains tested to poultry decontaminants are of minor concern. However, the observations being presented here are based on in vitro studies, and further research into practical applications are needed in order to confirm these findings.     

牛磺酸对缺氧培养下视网膜神经节细胞株RGC-5的保护效应

目的:观察牛磺酸(Taurine)对缺氧(Hypoxia)条件下大鼠视网膜神经节细胞株RGC-5存活的影响.方法:将RGC-5置于缺氧条件(5%O2,5%CO2,90%N2)下培养12 h、24 h和48 h,观察不同浓度牛磺酸(0.01mM、0.1mM和1mM)对RGC-5形态、乳酸脱氢酶(Lactate dehydrogenase,LDH)释放率以及细胞凋亡的影响.结果:RGC-5经缺氧处理后部分细胞皱缩、变圆和脱落,LDH释放率升高,其中12h,24h和48hLDH释放率分别为(11.57±2.08)%,(17.76±3.96)%和(46.95±6.70)%,而牛磺酸处理组LDH释放率均降低,其中0.1mM牛磺酸作用最显著,12h,24h和48h缺氧后LDH释放率分别为(7.76±2.00)%,(9.14±2.99)%和(27.15±5.14)%;RGC-5缺氧24h后凋亡细胞显著增加(16.20±2.82)%,而0.1mM牛磺酸处理组凋亡率较低(8.90±1.54)%.结论:牛磺酸对缺氧条件下RGC-5具有明显的保护作用.     

Cholesterol-rich Fluid Membranes Solubilize Ceramide Domains: IMPLICATIONS FOR THE STRUCTURE AND DYNAMICS OF MAMMALIAN INTRACELLULAR AND PLASMA MEMBRANES*

A uniquely sensitive method for ceramide domain detection allowed us to study in detail cholesterol-ceramide interactions in lipid bilayers with low (physiological) ceramide concentrations, ranging from low or no cholesterol (a situation similar to intracellular membranes, such as endoplasmic reticulum) to high cholesterol (similar to mammalian plasma membrane). Diverse fluorescence spectroscopy and microscopy experiments were conducted showing that for low cholesterol amounts ceramide segregates into gel domains that disappear upon increasing cholesterol levels. This was observed in different raft (sphingomyelin/cholesterol-containing) and non-raft (sphingomyelin-absent) membranes, i.e. mimicking different types of cell membranes. Cholesterol-ceramide interactions have been described mainly as raft sphingomyelin-dependent. Here sphingomyelin independence is demonstrated. In addition, ceramide-rich domains re-appear when either cholesterol is converted by cholesterol oxidase to cholestenone or the temperature is decreased. Ceramide is more soluble in cholesterol-rich fluid membranes than in cholesterol-poor ones, thereby increasing the chemical potential of cholesterol. Ceramide solubility depends on the average gel-fluid transition temperature of the remaining membrane lipids. The inability of cholestenone-rich membranes to dissolve ceramide gel domains shows that the cholesterol ordering and packing properties are fundamental to the mixing process. We also show that the solubility of cholesterol in ceramide domains is low. The results are rationalized by a ternary phospholipid/ceramide/cholesterol phase diagram, providing the framework for the better understanding of biochemical phenomena modulated by cholesterol-ceramide interactions such as cholesterol oxidase activity, lipoprotein metabolism, and lipid targeting in cancer therapy. It also suggests that the lipid compositions of different organelles are such that ceramide gel domains are not formed unless a stress or pathological situation occurs.Cholesterol (Chol)³ is the most abundant sterol in mammalian plasma membrane and has unique biophysical properties (1, 2). Chol interacts with the high melting temperature (T_m) sphingolipids (SL) in the membrane, leading to the formation of SL/Chol-enriched microdomains (so-called lipid rafts). These domains are in a more ordered state (usually referred to as liquid-ordered (l_o) phase) than the bulk membrane (liquid-disordered phase (l_d)) (3, 4). Ceramide (Cer) is an SL formed in stress situations either from sphingomyelin (SM) in rafts or synthesized de novo by serine palmitoyltransferase and ceramide synthase. Both of these processes can be induced by diverse stimuli (5). Cer-induced membrane alterations (e.g. raft fusion into large signaling platforms (6)) were proposed to be the mechanism by which this lipid mediates diverse cellular processes, namely apoptosis (7–10). Cer presents an unusually small polar headgroup and in general very high gel-fluid T_m (e.g. for palmitoyl-Cer (PCer) it is ∼90 °C) (11). Membrane Cer levels are usually very low, although in cells undergoing apoptosis it can reach values up to 12 mol % total lipid (7), a percentage that in model membranes leads to Cer-rich gel domain formation (12–17). It was suggested that the formation of these domains might also be involved in Cer biological action (8, 18, 19).However, Cer effects on membrane properties are extremely dependent on membrane lipid composition, especially on Chol amounts (13, 20–23). For instance, in raft-forming model membranes (i.e. ternary mixtures of phosphocholines (PC), sphingomyelin (SM), and Chol), Cer-rich gel domains are formed at low but not at high Chol content (23). This result was explained by the competition between the two small headgroup molecules, Chol and Cer, for the bulkier headgroup, SM, to minimize acyl chain exposure to water. In fact, it is suggested that Cer selectively displaces Chol molecules from rafts, both in model (24–27) and in cell membranes (28, 29). However, a recent study showed that Cer-generated from SM hydrolysis leads to the formation of gel domains in these ternary mixtures only when Chol levels are low, suggesting that even for SM-depleted mixtures Chol is still able to modulate Cer effects (30). Therefore, to fully disclose the conditions that lead to the activation/regulation of Cer-mediated processes, further knowledge about Cer effects on membrane properties and their modulation by Chol is required.It is important to clarify the relation between Cer threshold for gel formation, cholesterol amount, and the properties of the remaining lipids (namely their propensity to form gel phases, which depends mainly on their gel-fluid transition temperature). This is because of the fact that each organelle membrane has its own specific composition. For example, there is a gradient of cholesterol concentration from the endoplasmic reticulum (ER) to the plasma membrane (PM) (31). In addition, there is a close relation between intracellular Cer levels, Ca²⁺ release from the ER, and Cer-induced permeability increase of the mitochondrial outer membrane (but not the inner membrane) (32, 33).The application of a uniquely sensitive method for Cer-rich gel detection allowed us to study for the first time Chol-Cer interactions in detail for high Chol and low Cer concentrations, i.e. a composition similar to mammalian plasma membranes. In addition, low Chol membranes were also studied. Our results clearly show that in a fluid matrix of representative mammalian membranes lipids, Cer-rich gel domains are destroyed by high amounts of Chol in the absence of SM and even in the absence of an l_o phase. We show that this outcome is a consequence of the higher solubility of Cer in Chol-rich membranes than in poor ones, the low solubility of Chol in Cer domains, and that it depends on the average T_m of the remaining lipids. These solubility differences offer a unified rationale for all Cer-Chol biophysical studies that can be translated into a ternary phase diagram, and the biological implications of the results are discussed.     

TGF-β1以受体和Smad7依赖的方式活化ERK

目的:探讨人永生化BEP2D细胞中TGF-β活化ERK/MAPK通路的机制。方法:用RNA干扰的方法设计siRNAs使人永生化BEP2D细胞中TβRⅡ、Smad7基因沉默,用Westernblot分析TGF-β1诱导的ERK激酶磷酸化的变化。结果:当Smad7表达沉默后,TGF-β1诱导的ERK激酶磷酸化水平显著降低;当TβRⅡ和Smad7表达同时发生沉默后,细胞内TGF-β1诱导的ERK激酶磷酸化水平进一步降低到基础水平以下。结论:TGF-β1以受体和Smad7依赖的方式活化ERK/MAPK通路。     

Hydraulic lift: soil processes and transpiration in the Mediterranean leguminous shrub Retama sphaerocarpa (L.) Boiss

Hydraulic lift (HL) is the process by which plants can passively transfer water from deep, moist soil layers to shallow, dry soil layers. Although it has attracted recent research interest, a mechanistic understanding and its implications for ecosystem functioning are still lacking. Here we describe HL seasonal patterns in a semi-arid shrub species and its influence on plant water dynamics. We measured soil water availability and plant water status over the course of 1 year. Soil water potential in the rhizosphere of Retama sphaerocarpa (L.) Boiss (Fabaceae) individuals and in adjacent land was recorded using soil psychrometers. Sap flow was recorded simultaneously using the stem heat balance method (SHBM). Our results show a seasonal HL trend linked to mean seasonal soil water potential with greatest HL amplitudes at moderately low water potentials (ca ?4 MPa). HL amplitude was negatively affected by nocturnal transpiration, and HL patterns were recorded in all seasons and at water potentials ranging from ?0.1 MPa to ?8.5 MPa which is consistent with R. sphaerocarpa deep rooting habit and its steady access to ground water.     

Abundance and richness of mollusks and crustaceans associated to the submerged roots of red mangrove (Rhizophora mangle) at Bocaripo Lagoon, Sucre, Venezuela

Mangrove roots are important habitats for many species. The abundance and richness of mollusks and crustaceans associated with the roots demerged of Rhizophora mangle was studied. The samples were gathered between February 2005 and January 2006, in Bocaripo lagoon, north coast of Sucre state, Venezuela. Five stations were established inside the lagoon; on every station two roots were chosen at random, put in plastic bags and scraped. The associated organisms were separated by taxa and fixed in 10% formaldehyde. One thousand ninety two specimens of mollusks, distributed in two classes: Bivalve and Gastropod were collected. Bivalve was the most abundant with 943 individuals. The most representative family was Mytilidae with 6 species, being Musculus lateralis the dominant species. The crustaceans were represented by 372 organisms, belonging to the class Malacostraca, where Panopeus herbstii (169 ind.) was the most abundant species. The families Panopeidae, Porcellanidae and Majidae had the highest number of species. Maximum abundance was in February (224 ind.), with a richness of 25 species and the minimums in November (45 ind.) and a richness of 12 species. The stations 1 and 5 presented the major abundance and richness of organisms, which could be related to environmental conditions favorable, as the major availability of microhabitats and nourishing offer; on the contrary the station 4, presented a more inhospitable environment, due to the high values in the salinity and temperature, which contributes with the minor abundance and richness of the present species.     

Are compound leaves an adaptation to seasonal drought or to rapid growth? Evidence from the Amazon rain forest

Aim To assess the hypotheses that compound leaves of trees in the Amazon forest are an adaptation to drought and/or rapid growth. Location Amazon rain forest, South America. Methods Genera from 137 permanent forest plots spread across Amazonia were classified into those with compound leaves and those with simple leaves. Metrics of compound leaf prevalence were then calculated for each plot and regression models that accounted for spatial autocorrelation were used to identify associations between climate variables and compound leaf structure. We also tested for associations between compound leaf structure and a variety of ecological variables related to life history and growth strategies, including wood density, annual increase in diameter and maximum height. Results One plant family, Fabaceae, accounts for 53% of compound‐leaved individuals in the dataset, and has a geographical distribution strongly centred on north‐east Amazonia. On exclusion of Fabaceae from the analysis we found no significant support for the seasonal drought hypothesis. However, we found evidence supporting the rapid growth hypothesis, with possession of compound leaves being associated with faster diameter growth rates and lower wood densities. Main conclusion This study provides evidence that possession of compound leaves constitutes one of a suite of traits and life‐history strategies that promote rapid growth in rain forest trees. Our findings highlight the importance of carefully considering the geographical distribution of dominant taxa and spatial clustering of data points when inferring ecological causation from environment–trait associations.     

Prevalence of antibodies against selected agents shared between Cantabrian chamois (Rupicapra pyrenaica parva) and domestic goats

Southern chamois (Rupicapra pyrenaica) share the habitat with domestic ungulates, and may, therefore, play a role in the epidemiology of shared agents. The objective of this study was to determine the seroprevalence for Brucella spp., Mycobacterium avium ssp. paratuberculosis (MAP), pestivirus, and Sarcoptes scabiei in Cantabrian chamois (Rupicapra pyrenaica parva) and compare these data with those of sympatric domestic goats (Capra hircus). From 2005 to 2008, blood samples were obtained from 236 adult Cantabrian chamois in two different populations, the western one and the eastern one. Seroprevalence for Brucella spp. and pestivirus was assessed using commercial ELISA kits, whereas specifically designed ELISA tests were used for MAP and S. scabiei. No antibodies against Brucella spp. were detected. Conversely, antibodies against MAP, pestivirus (chamois 3.8%; goat 2.3%), and S. scabiei (chamois 11.9%; goat 12.8%) were detected in both species. Seroprevalence for MAP was significantly higher for domestic goats (26%) than for chamois (9.7%). In chamois, seroprevalence for pestivirus was higher in the west (6.5%) than in the east (range 0–1.8%), whereas seroprevalence for S. scabiei followed the opposite trend (west 4.6%; east 16.7–21.4%). We suggest that certain diseases could circulate between Cantabrian chamois and domestic goat populations, and domestic livestock may suppose a threat for the health status of sympatric Cantabrian chamois.