Spatial heterogeneity of element and litter turnover in a Bornean rain forest.

The spatial heterogeneity of element fluxes was quantified by measuring litterfall, throughfall and litter decomposition for 1 y in 30 randomly located sampling areas in a lowland dipterocarp rain forest. The idea tested was that turnover of elements is more variable than turnover of dry matter in a forest with extremely high tree species diversity. In spite of the low fertility of the soil (an ultisol), total litter production (leaves, trash, and wood <2 cm in diameter) was high (1105 g

The issue of "closure" in Jagers op Akkerhuis's operator theory.

Attempts to define life should focus on the transition from molecules to cells and the "closure" aspects of this event. Rather than classifying existing objects into living and non-living entities I believe the challenge is to understand how the transition from non-life to life can take place, that is, the how the closure in Jagers op Akkerhuis's hierarchical classification of operators, comes about. © 2010 Springer Science+Business Media B.V

Micro-evolution of toxicant tolerance: from single genes to the genome's tangled bank.

Two case-studies published 55 years ago became textbook examples of evolution in action: DDT resistance in houseflies (Busvine) and the rise of melanic forms of the peppered moth (Kettlewell). Now, many years later, molecular studies have elucidated in detail the mechanisms conferring resistance. In this paper we focus on the case of metal tolerance in a soil-living arthropod, Orchesella cincta, and provide new evidence on the transcriptional regulation of a gene involved in stress tolerance, metallothionein. Evolution of resistance is often ascribed to cis-regulatory change of such stress-combatting genes. For example, DDT resistance in the housefly is due to insertion of a mobile element into the promoter of Cyp6g1, and overexpression of this gene allows rapid metabolism of DDT. The discovery of these mechanisms has promoted the idea that resistance to environmental toxicants can be brought about by relatively simple genetic changes, involving up-regulation, duplication or structural alteration of a single-gene. Similarly, the work on O. cincta shows that populations from metal-polluted mining sites have a higher constitutive expression of the cadmium-induced metallothionein (Mt) gene. Moreover, its promoter appears to include a large degree of polymorphism; Mt promoter alleles conferring high expression in cell-based bioreporter assays were shown to occur at higher frequency in populations living at polluted sites. The case is consistent with classical examples of micro-evolution through altered cis-regulation of a key gene. However, new data on qPCR analysis of gene expression in homozygous genotypes with both reference and metal-tolerant genetic backgrounds, show that Mt expression of the same pMt homozygotes depends on the origin of the population. This suggests that trans-acting factors are also important in the regulation of Mt expression and its evolution. So the idea that metal tolerance in Orchesella can be viewed as a single-gene adaptation must be abandoned. These data, added to a genome-wide gene expression profiling study reported earlier shows that evolution of tolerance takes place in a complicated molecular network, not unlike an internal tangled bank. © 2011 The Author(s)

Functional environmental genomics of a municipal landfill soil.

We investigated the toxicity of soil samples derived from a former municipal landfill site in the South of the Netherlands, where a bioremediation project is running aiming at reusing the site for recreation. Both an organic soil extract and the original soil sample was investigated using the ISO standardised Folsomia soil ecotoxicological testing and gene expression analysis. The 28 day survival/reproduction test revealed that the ecologically more relevant original soil sample was more toxic than the organic soil extract. Microarray analysis showed that the more toxic soil samples induced gene regulatory changes in twice as less genes compared to the soil extract. Consequently gene regulatory changes were highly dependent on sample type, and were to a lesser extent caused by exposure level. An important biological process shared among the two sample types was the detoxification pathway for xenobiotics (biotransformation I, II and III) suggesting a link between compound type and observed adverse effects. Finally, we were able to retrieve a selected group of genes that show highly significant dose-dependent gene expression and thus were tightly linked with adverse effects on reproduction. Expression of four cytochrome P450 genes showed highest correlation values with reproduction, and maybe promising genetic markers for soil quality. However, a more elaborate set of environmental soil samples is needed to validate the correlation between gene expression induction and adverse phenotypic effects

Exploring DNA methylation patterns in copper exposed Folsomia candida and Enchytraeus crypticus

Accumulating evidence shows that epigenetics-mediated phenotypic plasticity plays a role in an organism’s ability to deal with environmental stress. However, to date, the role of epigenetic modifications in response to stress is hardly investigated in soil invertebrates. The main objective of this proof of principle study was to explore whether total cytosine and locus-specific CpG methylation are present in two important ecotoxicological model organisms, the springtail Folsomia candida and the potworm Enchytraeus crypticus, and if so, whether methylation patterns might change with increased toxicant exposure. LC-MS/MS analyses and bisulfite sequencing were performed to identify the CpG methylation state of the organisms. We show here, for the first time, a total level of 1.4% 5-methyl cytosine methylation in the genome of E. crypticus, and an absence of both total cytosine and locus-specific CpG methylation in F. candida. In E. crypticus, methylation of CpG sites was observed in the coding sequence (CDS) of the housekeeping gene Elongation Factor 1α, while the CDS of the stress inducible Heat Shock Protein 70 gene almost lacked methylation. This confirms previous observations that DNA methylation differs between housekeeping and stress-inducible genes in invertebrates. DNA methylation patterns in E. crypticus were not affected by exposure to copper (II) sulfate pentahydrate (CuSO4·5H2O) mixed in with LUFA 2.2 soil at sublethal effect concentrations that decreased reproduction by 10%, 20% and 50%. Although, differences in CpG methylation patterns between specific loci suggest a functional role for DNA methylation in E. crypticus, genome-wide bisulfite sequencing is needed to verify whether environmental stress affects this epigenetic hallmark

Impact of Extraction Time during Donation after Circulatory Death Organ Procurement on Kidney Function after Transplantation in the Netherlands

Background:In The Netherlands, 60% of deceased-donor kidney offers are after donation after circulatory death. Cold and warm ischemia times are known risk factors for delayed graft function (DGF) and inferior allograft survival. Extraction time is a relatively new ischemia time. During procurement, cooling of the kidneys is suboptimal with ongoing ischemia. However, evidence is lacking on whether extraction time has an impact on DGF if all ischemic periods are included.Methods:Between 2012 and 2018, 1524 donation after circulatory death kidneys were procured and transplanted in The Netherlands. Donation and transplantation-related data were obtained from the database of the Dutch Transplant Foundation. The primary outcome parameter was the incidence of DGF. Results:In our cohort, extraction time ranged from 14 to 237 min, with a mean of 62 min (SD 32). In multivariate logistic regression analysis, extraction time was an independent risk factor for incidence of DGF (odds ratio per minute increase 1.008; 95% confidence interval, 1.003-1.013; P = 0.001). The agonal phase, hypoperfusion time, and anastomosis time were not independent risk factors for incidence of DGF. Conclusions:Considering all known ischemic periods during the donation after the circulatory death process, prolonged kidney extraction time increased the risk of DGF after kidney transplantation.</p