Refine
Document Type
- Article (3)
- Doctoral Thesis (1)
Language
- English (4)
Has Fulltext
- yes (4)
Is part of the Bibliography
- no (4)
Keywords
- Europe (4) (remove)
Institute
Publisher
- Frontiers Media S.A. (1)
- S. Karger AG (1)
- Wiley (1)
Abstract
The role of future forests in global biogeochemical cycles will depend on how different tree species respond to climate. Interpreting the response of forest growth to climate change requires an understanding of the temporal and spatial patterns of seasonal climatic influences on the growth of common tree species. We constructed a new network of 310 tree‐ring width chronologies from three common tree species (Quercus robur, Pinus sylvestris and Fagus sylvatica) collected for different ecological, management and climate purposes in the south Baltic Sea region at the border of three bioclimatic zones (temperate continental, oceanic, southern boreal). The major climate factors (temperature, precipitation, drought) affecting tree growth at monthly and seasonal scales were identified. Our analysis documents that 20th century Scots pine and deciduous species growth is generally controlled by different climate parameters, and that summer moisture availability is increasingly important for the growth of deciduous species examined. We report changes in the influence of winter climate variables over the last decades, where a decreasing influence of late winter temperature on deciduous tree growth and an increasing influence of winter temperature on Scots pine growth was found. By comparing climate–growth responses for the 1943–1972 and 1973–2002 periods and characterizing site‐level growth response stability, a descriptive application of spatial segregation analysis distinguished sites with stable responses to dominant climate parameters (northeast of the study region), and sites that collectively showed unstable responses to winter climate (southeast of the study region). The findings presented here highlight the temporally unstable and nonuniform responses of tree growth to climate variability, and that there are geographical coherent regions where these changes are similar. Considering continued climate change in the future, our results provide important regional perspectives on recent broad‐scale climate–growth relationships for trees across the temperate to boreal forest transition around the south Baltic Sea.
Coastal sand dunes near the Baltic Sea are a dynamic environment marking the boundary between land and sea and oftentimes covered by Scots pine (Pinus sylvestris L.) forests. Complex climate-environmental interactions characterize these ecosystems and largely determine the productivity and state of these coastal forests. In the face of future climate change, understanding interactions between coastal tree growth and climate variability is important to promote sustainable coastal forests. In this study, we assessed the effect of microsite conditions on tree growth and the temporal and spatial variability of the relationship between climate and Scots pine growth at nine coastal sand dune sites located around the south Baltic Sea. At each site, we studied the growth of Scots pine growing at microsites located at the ridge and bottom of a dune and built a network of 18 ring-width and 18 latewood blue intensity chronologies. Across this network, we found that microsite has a minor influence on ring-width variability, basal area increment, latewood blue intensity, and climate sensitivity. However, at the local scale, microsite effects turned out to be important for growth and climate sensitivity at some sites. Correlation analysis indicated that the strength and direction of climate-growth responses for the ring-width and blue intensity chronologies were similar for climate variables over the 1903–2016 period. A strong and positive relationship between ring-width and latewood blue intensity chronologies with winter-spring temperature was detected at local and regional scales. We identified a relatively strong, positive influence of winter-spring/summer moisture availability on both tree-ring proxies. When climate-growth responses between two intervals (1903–1959, 1960–2016) were compared, the strength of growth responses to temperature and moisture availability for both proxies varied. More specifically, for the ring-width network, we identified decreasing temperature-growth responses, which is in contrast to the latewood blue intensity network, where we documented decreasing and increasing temperature-growth relationships in the north and south respectively. We conclude that coastal Scots pine forests are primarily limited by winter-spring temperature and winter-spring/summer drought despite differing microsite conditions. We detected some spatial and temporal variability in climate-growth relationships that warrant further investigation.
Background: Robotic-assisted laparoscopy (RAL) is being widely accepted in the field of urology as a replacement for conventional laparoscopy (CL). Nevertheless, the process of its integration in clinical routines has been rather spontaneous. Objective: To determine the prevalence of robotic systems (RS) in urological clinics in Germany, Austria and Switzerland, the acceptance of RAL among urologists as a replacement for CL and its current use for 25 different urological indications. Materials and Methods: To elucidate the practice patterns of RAL, a survey at hospitals in Germany, Austria and Switzerland was conducted. All surgically active urology departments in Germany (303), Austria (37) and Switzerland (84) received a questionnaire with questions related to the one-year period prior to the survey. Results: The response rate was 63%. Among the participants, 43% were universities, 45% were tertiary care centres, and 8% were secondary care hospitals. A total of 60 RS (Germany 35, Austria 8, Switzerland 17) were available, and the majority (68%) were operated under public ownership. The perception of RAL and the anticipated superiority of RAL significantly differed between robotic and non-robotic surgeons. For only two urologic indications were more than 50% of the procedures performed using RAL: pyeloplasty (58%) and transperitoneal radical prostatectomy (75%). On average, 35% of robotic surgeons and only 14% of non-robotic surgeons anticipated RAL superiority in some of the 25 indications. Conclusions: This survey provides a detailed insight into RAL implementation in Germany, Austria and Switzerland. RAL is currently limited to a few urological indications with a small number of high-volume robotic centres. These results might suggest that a saturation of clinics using RS has been achieved but that the existing robotic capacities are being utilized ineffectively. The possible reasons for this finding are discussed, and certain strategies to solve these problems are offered.
Hantaviruses (family Bunyaviridae) are enveloped viruses with a segmented RNA genome of negative polarity. They can cause two different diseases in humans, the hemorrhagic fever with renal syndrome in Europe and Asia and the hantavirus cardiopulmonary syndrome in America. The transmission to humans is mainly indirect by inhalation of aerosolized virus-contaminated rodent excreta. In contrast to the initial assumption that hantaviruses are mainly carried by rodents, during the last years many novel hantaviruses were detected in shrews, moles and recently in bats. These findings raise important questions about the evolutionary history of hantaviruses, their host association and adaptation, the role and frequency of spillover infections and host switch events. This study aims to prove the presence, geographical distribution and host association of the rodent-borne Tula virus (TULV) and the shrew-associated Seewis virus (SWSV) in Central Europe. For this purpose, novel laboratory techniques for molecular and serological hantavirus detection were developed. Initially, a broad-spectrum molecular assay to identify small mammal species from Central Europe was developed. This novel assay is based on PCR amplification using degenerated primers targeting the cytochrome b (cyt b) gene, nucleotide sequence analysis of the amplified cyt b gene portion and followed by pairwise sequence comparison to published sequences using the BLAST function of GenBank. Different small mammal species prevalent in Central Europe could be determined by this new approach, including not only representatives of various Rodentia and Soricomorpha, but also representatives of the orders Erinaceomorpha, Lagomorpha, Carnivora and Chiroptera. For characterization of insectivore-borne hantavirus Thottapalayam virus (TPMV), specific monoclonal antibodies were generated that detect native virus in infected mammalian cells. For the detection of TPMV-specific antibodies, Asian house shrew Suncus murinus immunoglobulin G (IgG)-specific antibodies were produced in laboratory mice and rabbit. Using this anti-shrew IgG and recombinant TPMV nucleocapsid (N) protein, an indirect enzyme-linked immunosorbent assay (ELISA) was developed allowing the detection of TPMV N protein-specific antibodies in immunized and experimentally TPMV infected shrews. A Pan-Hantavirus SYBR-Green RT-qPCR was developed for the search to novel hantaviruses. By this novel RT-qPCR and other conventional RT-PCR approaches, TULV infections were identified for the first time in the Eurasian water vole Arvicola amphibius from different regions in Germany and Switzerland. The phylogenetic analyses of the different partial TULV small (S)-, medium (M)- and large (L)-genome segment sequences from A. amphibius, with those of Microtus arvalis- and M. agrestis-derived TULV lineages, revealed a geographical, but host-independent clustering and may suggest multiple TULV spillover or a potential host switch from M. arvalis or M. agrestis to A. amphibius. In a further comprehensive study, different shrew species (Sorex araneus, S. minutus, S. coronatus, and S. alpinus) were collected in Germany, Czech Republic, and Slovakia and screened by another L-segment-targeting Pan-Hantavirus RT-PCR approach. This screening revealed hantavirus L-segment sequences in a large number of S. araneus and a few S. minutus indicating a broad geographical distribution of this hantavirus. For detailed analyses, S-segment sequences were obtained, from S. araneus and S. minutus. The sequences demonstrated their similarity to SWSV sequences from Hungary, Finland, Austria and Germany. A detailed phylogenetic analysis showed low intra-cluster sequence variability, but high inter-cluster divergence suggesting a long-term SWSV evolution in local shrew populations. In conclusion, the investigations demonstrated a broad geographical distribution and multiple spillover infections of rodent-borne TULV and shrew-borne SWSV in Europe. The finding of putative spillover transmissions described here and in other studies underline the current problem of the hantavirus reservoir host definition. In contrast to the hypothesis of a long-standing hantavirus–rodent (small mammal) host coevolution, the investigations support a more dynamic evolutionary history of hantavirus diversification including spillover infections and host-switch events. In future in vitro and in vivo infection studies as well as field studies has to define factors determining the host specificity of these hantaviruses.