The multixenobiotic resistance mechanism in the marine sponge Suberites domuncula: its potential applicability for the evaluation of environmental pollution by toxic compounds

Experiments were carried out with the marine sponge Suberites domuncula to determine whether sponges may express-like mammalian tumor cells-a multidrug-like transporter system. The results demonstrate that sponge cells possess such a protective system termed multixenobiotic resistance (MXR) pump or P-glycoprotein-like pump. The protein was identified by antisera for the mammalian P170 multidrug resistance protein as a 130 kDa molecule. Binding studies were performed with ³H-vincristine (³H-VCR) and membrane vesicles; this process is ATP-dependent and inhibited by verapamil, which is known to reverse the multidrug-resistance phenotype in mammalian systems. Accumulation experiments were performed to demonstrate that the uptake of ³H-VCR is time-dependent, and increases at elevated extracellular levels of ³H-VCR. Application of the dyeing technique with calcein-AM, a suitable functional assay for multidrug transporter systems in mammal cells, also revealed the existence of the MXR pump in S. domuncula plasma membranes. These data demonstrate that S. domuncula is provided with a multidrug-like transporter, the MXR pump, which might function as a protection system for sponges in polluted environments.     

Vulnerability of Mid-Atlantic Forested Watersheds to Timber Harvest Disturbance

Forested watersheds of the Mid-Atlantic Region are an important economic resource. They are also critical for maintaining water quality, sustaining important ecological services, and providing habitat to many animal and plant species of conservation concern. These forests are vulnerable to disturbance and fragmentation from changing patterns of land use in the Mid-Atlantic Region, and from harvests of commercially mature and relatively inexpensive timber. The U.S. Department of Agriculture Forest Service (USDA-FS) Forest Inventory and Analysis (FIA) compiles data on forest condition by state and county. We have transformed these FIA data to a U.S. Geological Survey (USGS) 6-digithdrologic unit code (HUC 6) watershed base, and projected trends in timber growth, inventory, and harvest to 2025 using a timber economics forecasting model (SRTS). We consider forest sustainability from the perspective of timber production, and from the perspective of landscape stability important to conservation values. Simulation data is combined with FIA planted pine acreage data to form a more complete picture of forest extent, composition, and silvicultural practice. Early recognition of prevailing economic trends which encourage the fragmentation of mature forests due to increasing timber harvests may provide managers and policy makers with a planning tool to mitigate undesirable impacts.     

Is the effect of forest structure on bird diversity modified by forest productivity?

Currently, the most common strategy when managing forests for biodiversity at the landscape scale is to maintain structural complexity within stands and provide a variety of seral stages across landscapes. Advances in ecological theory reveal that biodiversity at continental scales is strongly influenced by available energy (i.e., climate factors relating to heat and light and primary productivity). This paper explores how available energy and forest structural complexity may interact to drive biodiversity at a regional scale. We hypothesized that bird species richness exhibits a hump-shaped relationship with energy at the regional scale of the northwestern United States. As a result, we hypothesized that the relationship between energy and richness within a landscape is positive in energy-limited landscapes and flat or decreasing in energy-rich landscapes. Additionally, we hypothesized that structural complexity explains less of the variation in species richness in energy-limited environments and more in energy-rich environments and that the slope of the relationship between structural complexity and richness is greatest in energy-rich environments. We sampled bird communities and vegetation across seral stages and biophysical settings at each of five landscapes arrayed across a productivity gradient from the Pacific Coast to the Rocky Mountains within the five northwestern states of the contiguous United States. We analyzed the response of richness to structural complexity and energy covariates at each landscape. We found that (1) richness had a hump-shaped relationship with available energy across the northwestern United States, (2) the landscape-scale relationships between energy and richness were positive or hump shaped in energy-limited locations and were flat or negative in energy-rich locations, (3) forest structural complexity explained more of the variation in bird species richness in energy-rich landscapes, and (4) the slope of the relationship between forest structural complexity and richness was steepest in energy-limited locations. In energy-rich locations, forest managers will likely increase landscape-scale bird diversity by providing a range of forest structural complexity across all seral stages. In low-energy environments, bird diversity will likely be maximized by managing local high-energy hotspots judiciously and adjusting harvest intensities in other locations to compensate for slower regeneration rates.     

Wasserrahmenrichtlinie — Fortschritte und Defizite

Background

The water protection policy of the European Union sits on new footings since the end of 2000: The Water FrameworkDirective (WFD). By replacing, merging and renewing all parts of the European water protection policy from the 1970s, the WFD provides a consistent, transparent and comprehensive concept of what water management should be in the Europe of the coming decades. The new directive is aimed at a holistic approach towards integrated water protection. It sets ambitious high-quality goals to achieve a good status for European lakes and rivers primarily in ecological terms, gives details about the essential processes as well as instruments, and includes everything into a strict time schedule.

Aim

This article adresses progress and shortcomings at the implementation of the WFD in general and with reference to two selected case studies (Rivers Elbe and Upper Danube).

Results and Discussion

After introducing the WFD, its aims and exceptions, a policy summary and background document ‘Environmental objectives und the Water Framework Directive’ and the use of Environmental Quality Standards (EQS) for single ‘priority substances’ as well as ‘hazardous priority components’ is discussed. The initial characterization undertaken by the German states revealed that only about 14% of all surface waters are considered to meet the WFD objectives by the year of 2015. Approximately 60% of the water bodies assessed are at risk of failing the WFD objectives, if not systematic efforts are made to improve the quality. Screenings of sources and paths of exposure for ‘priority substances’ and ‘priority hazardous substances’ according WFD identified one distinct pollution source for surface waters: ‘Historical pollution from sediments’. Because of industrial emissions in the past several river catchment areas are expected to fail the standards demanded by the WFD, due to a risk of remobilization of contaminants from sediments. This holds true for the Rhine river with high loads of hexachlorobenzene (HCB) as well as for Elbe river, where contaminated sediments can be a severe problem. Therefore, integration of sediments into the holistic river basin management approach and their consideration within the ‘programmes of measures’ scheduled for 2009 is highly recommended. At present, a comprehensive weight-of-evidence study verifies whether the observed fish decline at the Upper Danube. River is caused by ecotoxicological hazard potentials of contaminated sediments.

Outlook

Combined investigations of sediment contamination and mobility as well as acute and mechanism specific biotests in effect directed analyses/weight-of-evidence studies show grent potential for the assessment of chemically polluted rivers and should be included into the ‘programmes of measures’ within future management concepts.

     

Anaerobic transformation of four abundant organochlorine pesticide residues (B8-1413, B9-1679, oxychlordane,p,p‵-DDE) in extracts of Antarctic skua eggs by the isolated bacterium Sulfurospirillum multivorans

Residues of halogenated pollutants bioaccumulated in eggs of the south polar skua (Catharacta maccormicki) from the Antarctic were extracted, purified, and fractionated. The target fraction which contained the bulk of the chloropesticides was concentrated and incubated with cell suspensions of the isolated bacterium Sulfurospirillum multivorans (formerly Dehalospirillum multivorans). S. multivorans was previously identified as a good anoxic transformer of several halogenated compounds. The compounds of technical toxaphene 2-endo,3-exo,5-endo,6-exo,8,8,10,10-octachlorobornane (B8-1413, also known as P-26) and 2-endo,3-exo,5-endo,6-exo,8,8,9,10,10-nonachlorobornane (B9-1679, also known as P-50) as well as 1,1-dichloro-2,2-bis(p-chlorophenyl)ethene (p,p′-DDE) and 1-exo,2-exo,4,5,6,7,8,8-octachloro-2,3-exo-epoxy-3a,4,7,7a-tetrahydro-4,7-methanoindene (oxychlordane) were present at a sufficiently high concentration and hence useful for studying the anaerobic transformation by the bacterium. When treated with S. multivorans, B8-1413 and B9-1679 were almost quantitatively transformed within 1 day. For B9-1679, the major metabolite was found to be 2-endo,3-exo,5-endo,6-exo,8,9,10-heptachlorobornane (B7-1001). Compared to the toxaphenes, transformation of oxychlordane and p,p′-DDE was significantly slower. Even after seven days, about 10% of the initial pool was detected in the extracts. 1-chloro-2,2-bis(p-chlorophenyl)ethene (p,p′-DDMU) was identified as a transformation product of p,p′-DDE. The four compounds in this study comprise some of the most persistent chloropesticide residues found in marine birds. In case there is sufficient transformation before they reach the top predators, the bioaccumulative potential can be significantly reduced.