Genetic risk factors for Parkinson’s disease in Ukraine

The paper focuses on the genetic risk factors for Parkinson’s disease (PD) such as polymorphisms in genes CYP1A1, GSTM1 and APOE. A total number of 516 people were examined. 300 persons were in the control group (mean age 67,0 ± 0,4 years; 200 males and 100 females) and 216 persons were patients with PD (mean age 65,0 ± 0,7 years, 116 males and 100 females). Whole blood samples collected from each person were genotyped using PCR-RFLP. Amplification and restriction results were assessed by conducting vertical agarose gel electrophoresis. The study analyzed marker с.2452C>A in the CYP1A1 gene. In the control group, allele C frequency was 0.79, and allele A frequency – 0.21. Genotype frequencies were: CC – 0.61, AC – 0.36, AA – 0.03. In the group of patients alleles C and A frequencies were 0.64 and 0.36 correspondingly. Genotype frequencies were: CC – 0.35, AC – 0.58, AA – 0.07. There was a significant difference between both groups in allele A frequency. It is considered that 0/0 genotype for the GSTM1 gene is a risk factor for PD. In the controls, +/+ and 0/0 genotypes frequencies were 0.67 and 0.33 correspondingly. In the group of patients +/+ genotype frequency was 0.55 and 0/0 genotype frequency – 0.45. The difference was statistically significant. In the control group genotype frequencies for the АРОЕ gene were 0.715 (Е3/Е3), 0.077 (Е3/Е4), 0.009 (Е4/Е4), 0.167 (Е2/Е3), 0.031 (Е2/Е4) and 0.000 (Е2/Е2). In the group of patients with PD they were 0.634 (Е3/Е3), 0.148 (Е3/Е4), 0.032 (Е4/Е4), 0.157 (Е2/Е3), 0.023 (Е2/Е4) and 0.000 (Е2/Е2). Е3/Е4 genotype frequency was significantly higher in the group of patients with PD than in the control group. Pathogenic allele с.2452C>A of the CYP1A1 gene is associated with increased risk of PD (OR = 1.72). 0/0 genotype carriers have higher risk to develop PD (OR = 1.72). Allele έ4 of the АРОЕ gene may be associated with increased risk of PD. Risk of the disease is higher in έ2 allele carriers (OR = 2.35) and έ4 allele carriers (OR=1.97). People with genotype Е4/Е4 have chances to be affected by PD 3.48 times higher (OR = 3.48). Associations revealed in the different human populations between genetic factors and PD may vary that is associated with the genetic heterogeneity and proportion of environmental factors which affect people. Despite the results are sometimes controversial, they can be helpful in developing DNA-tests for early diagnosis of PD

Current state of terrestrial ecosystems in the joint Norwegian, Russian and Finnish border area

Appendix 15/15 of the publication "State of the environment in the Norwegian, Finnish and Russian border area 2007" (The Finnish Environment 6/2007)

Global monitoring of soil animal communities using a common methodology.

Here we introduce the Soil BON Foodweb Team, a cross-continental collaborative network that aims to monitor soil animal communities and food webs using consistent methodology at a global scale. Soil animals support vital soil processes via soil structure modification, consumption of dead organic matter, and interactions with microbial and plant communities. Soil animal effects on ecosystem functions have been demonstrated by correlative analyses as well as in laboratory and field experiments, but these studies typically focus on selected animal groups or species at one or few sites with limited variation in environmental conditions. The lack of comprehensive harmonised large-scale soil animal community data including microfauna, mesofauna, and macrofauna, in conjunction with related soil functions, microbial communities, and vegetation, limits our understanding of biological interactions in soil systems and how these interactions affect ecosystem functioning. To provide such data, the Soil BON Foodweb Team invites researchers worldwide to use a common methodology to address six long-term goals: (1) to collect globally representative harmonised data on soil micro-, meso-, and macrofauna communities, (2) to describe key environmental drivers of soil animal communities and food webs, (3) to assess the efficiency of conservation approaches for the protection of soil animal communities, (4) to describe soil food webs and their association with soil functioning globally, (5) to establish a global research network for soil biodiversity monitoring and collaborative projects in related topics, (6) to reinforce local collaboration networks and expertise and support capacity building for soil animal research around the world. In this paper, we describe the vision of the global research network and the common sampling protocol to assess soil animal communities and advocate for the use of standard methodologies across observational and experimental soil animal studies. We will use this protocol to conduct soil animal assessments and reconstruct soil food webs at sites associated with the global soil biodiversity monitoring network, Soil BON, allowing us to assess linkages among soil biodiversity, vegetation, soil physico-chemical properties, climate, and ecosystem functions. In the present paper, we call for researchers especially from countries and ecoregions that remain underrepresented in the majority of soil biodiversity assessments to join us. Together we will be able to provide science-based evidence to support soil biodiversity conservation and functioning of terrestrial ecosystems

The impact of climate change on the expansion of Ixodes persulcatus habitat and the incidence of tick-borne encephalitis in the north of European Russia

The increase in tick-borne encephalitis (TBE) incidence is observed in recent decades in a number of subarctic countries. The reasons of it are widely discussed in scientific publications. The objective of this study was to understand if the climate change in Arkhangelsk Oblast (AO) situated in the north of European subarctic zone of Russia has real impact on the northward expansion of Ixodid ticks and stipulates the increase in TBE incidence. This study analyzes: TBE incidence in AO and throughout Russia, the results of Ixodid ticks collecting in a number of sites in AO, and TBE virus prevalence in those ticks, the data on tick bite incidence in AO, and meteorological data on AO mean annual air temperatures and precipitations.It is established that in recent years TBE incidence in AO tended to increase contrary to its apparent decrease nationwide. In last 10 years, there was nearly 50-fold rise in TBE incidence in AO when compared with 1980–1989. Probably, the increase both in mean annual air temperatures and temperatures during tick active season resulted in the northward expansion of Ixodes Persulcatus, main TBE virus vector. The Ixodid ticks expansion is confirmed both by the results of ticks flagging from the surface vegetation and by the tick bite incidence in the population of AO locations earlier free from ticks. Our mathematical (correlation and regression) analysis of available data revealed a distinct correlation between TBE incidence and the growth of mean annual air temperatures in AO in 1990–2009.Not ruling out other factors, we conclude that climate change contributed much to the TBE incidence increase in AO