Quantitative in vivo redox sensors uncover oxidative stress as an early event in life

Obstacles in elucidating the role of oxidative stress in?aging include difficulties in (1) tracking in?vivo oxidants, in (2) identifying affected proteins, and in (3) correlating changes in oxidant levels with life span. Here, we used quantitative redox proteomics to determine the onset and the cellular targets of oxidative stress during Caenorhabditis elegans' life span. In parallel, we used genetically encoded sensor proteins to determine peroxide levels in live animals in real time. We discovered that C.?elegans encounters significant levels of oxidants as early as during larval development. Oxidant levels drop rapidly as animals mature, and reducing conditions prevail throughout the reproductive age, after which age-accompanied protein oxidation sets in. Long-lived daf-2 mutants transition faster to reducing conditions, whereas short-lived daf-16 mutants retain higher oxidant levels throughout their mature life. These results suggest that animals with improved capacity to recover from early oxidative stress have significant advantages later in life.     

棉花和香瓜的甘薯粉虱Bemisia tabaci (同翅目 ,粉虱科 )B生态型虫体大小和重量的田间调查(英文)

20 0 0和 2 0 0 1年在美国凤凰城和北达科塔州法哥城田间 ,调查棉花和香瓜上甘薯粉虱BemisiatabaciB生态型所有虫期虫体大小和重量。从若虫大小计算出若虫的体积。第一到第四龄晚期 ,若虫平均体积以指数方式增加。体积增加最快的是第三到第四龄早期。棉花上的若虫比香瓜上的宽 ,但是并不比较长。香瓜上第一到第四龄早期的若虫 ,最厚部位的腹部和背部厚度比例显著比棉花上的要高。两种寄主作物上的若虫从第一到第四龄发育期 ,腹部厚度平均增加将近 5 1倍 ,而背部厚度只增加 2 8倍。雌虫和雄虫从头顶到翅尖平均长度分别为 112 6和 95 3微米 ,重量为 39和 17微克。棉花和香瓜上的虫卵平均长 ,宽 ,重分别为 197微米 ,99微米 ,和0 8微克。未被寄生的蛹壳长 ,宽 ,重分别为 6 73微米 ,4 92微米和 1 2微克 ;被寄生的蛹壳为 6 6 5微米 ,4 5 2微米 ,和 3 6微克。棉花上未被寄生和被寄生的蛹壳比香瓜上的长 ,宽 ,和更重。     

Effect of wind energy development on breeding duck densities in the Prairie Pothole Region

Industrial wind energy production is a relatively new phenomenon in the Prairie Pothole Region and given the predicted future development, it has the potential to affect large land areas. The effects of wind energy development on breeding duck pair use of wetlands in proximity to wind turbines were unknown. During springs 2008–2010, we conducted surveys of breeding duck pairs for 5 species of dabbling ducks in 2 wind energy production sites (wind) and 2 paired reference sites (reference) without wind energy development located in the Missouri Coteau of North Dakota and South Dakota, USA. We conducted 10,338 wetland visits and observed 15,760 breeding duck pairs. Estimated densities of duck pairs on wetlands in wind sites were lower for 26 of 30 site, species, and year combinations and of these 16 had 95% credible intervals that did not overlap zero and resulted in a 4–56% reduction in breeding pairs. The negative median displacement observed in this study (21%) may influence the prioritization of grassland and wetland resources for conservation when existing decision support tools based on breeding-pair density are used. However, for the 2 wind study sites, priority was not reduced. We were unable to directly assess the potential for cumulative impacts and recommend long-term, large-scale waterfowl studies to reduce the uncertainty related to effects of broad-scale wind energy development on both abundance and demographic rates of breeding duck populations. In addition, continued dialogue between waterfowl conservation groups and wind energy developers is necessary to develop conservation strategies to mitigate potential negative effects of wind energy development on duck populations. Published 2012. This article is a U.S. Government work and is in the public domain in the USA.     

Win-win for wind and wildlife: a vision to facilitate sustainable development

Wind energy offers the potential to reduce carbon emissions while increasing energy independence and bolstering economic development. However, wind energy has a larger land footprint per Gigawatt (GW) than most other forms of energy production, making appropriate siting and mitigation particularly important. Species that require large unfragmented habitats and those known to avoid vertical structures are particularly at risk from wind development. Developing energy on disturbed lands rather than placing new developments within large and intact habitats would reduce cumulative impacts to wildlife. The U.S. Department of Energy estimates that it will take 241 GW of terrestrial based wind development on approximately 5 million hectares to reach 20% electricity production for the U.S. by 2030. We estimate there are ～7,700 GW of potential wind energy available across the U.S., with ～3,500 GW on disturbed lands. In addition, a disturbance-focused development strategy would avert the development of ～2.3 million hectares of undisturbed lands while generating the same amount of energy as development based solely on maximizing wind potential. Wind subsidies targeted at favoring low-impact developments and creating avoidance and mitigation requirements that raise the costs for projects impacting sensitive lands could improve public value for both wind energy and biodiversity conservation.     

Adjustment of leaf photosynthesis to shade in a natural canopy: reallocation of nitrogen

The present study was performed to investigate the adjustment of the constituents of the light and dark reactions of photosynthesis to the natural growth irradiance in the leaves of an overstorey species, Betula pendula Roth, a subcanopy species Tilia cordata P. Mill., and a herb Solidago virgaurea L. growing in a natural plant community in Järvselja, Estonia. Shoots were collected from the site and properties of individual leaves were measured in a laboratory, by applying a routine of kinetic gas exchange and optical measurements that revealed photosystem II (PSII), photosystem I (PSI), and cytochrome b₆f densities per leaf area and the distribution of excitation (or chlorophyll, Chl) between the two photosystems. In parallel, N, Chl and ribulose-bisphosphate carboxylase-oxygenase (Rubisco) content was measured from the same leaves. The amount of N in photosynthetic proteins was calculated from the measured contents of the components of the photosynthetic machinery. Non-photosynthetic N was found as the residual of the budget. Growth in shade resulted in the decrease of leaf dry mass to a half of the DW in sun leaves in each species, but the total variation, from the top to the bottom of the canopy, was larger. Through the whole cross-section of the canopy, leaf dry weight (DW) and Rubisco content per area decreased by a factor of four, N content by a factor of three, but Chl content only by a factor of 1.7. PSII density decreased by a factor of 1.9, but PSI density by a factor of 3.2. The density of PSI adjusted to shade to a greater extent than the density of PSII. In shade, the distribution of N between the components of the photosynthetic machinery was shifted toward light-harvesting proteins at the expense of Rubisco. Non-photosynthetic N decreased the most substantially, from 54% in the sun leaves of B. pendula to 11% in the shade leaves of T. cordata. It is concluded that the redistribution of N toward light-harvesting Chl proteins in shade is not sufficient to keep the excitation rate of a PSII centre invariant. Contrary to PSII, the density of PSI – the photosystem that is in immediate contact with the carbon assimilation system – shade-adjusts almost proportionally with the latter, whereas its Chl antenna correspondingly increases. Even under N deficiency, a likely condition in the natural plant community, a substantial part of N is stored in non-photosynthetic proteins under abundant irradiation, but much less under limiting irradiation. At least in trees the general sequence of down-regulation due to shade adjustment is the following: (1) non-protein cell structures and non-photosynthetic proteins; (2) carbon assimilation proteins; (3) light reaction centre proteins, first PSI; and (4) chlorophyll-binding proteins.     

Record of Blue tilapia Oreochromis aureus (Steindachner, 1864) in the Eerste River catchment,Western Cape province,South Africa

Oreochromis aureus was imported from Israel into South Africa in 1959 but data on its current status in South Africa are lacking. Genomic DNA was extracted and the COI gene amplified at the South African Institute for Aquatic Biodiversity. The identity of the sequences and specimens was determined using the Barcode of Life Data Systems and GenBank. Morphological and genetic assessment demonstrated that 11 specimens collected from two farm dams in the Eerste River System, Western Cape province, were Oreochromis aureus. A MaxEnt model compiled using global distribution, rainfall and temperature data predicted that large areas of southern Africa were climatically suitable for this species, indicating considerable invasion debt in southern Africa. As a result, surveys to assess for the extent of the invasion in South Africa and eradication of existing populations, if feasible, are recommended management actions.     

Thermotaxis and protoplasmic oscillations inPhysarum plasmodia analysed in a novel device generating stable linear temperature gradients

Summary The application of sublethal temperature gradients offers a simple, non-invasive means for in vivo studies of thermotaxis and other temperature-dependent processes in various organisms. Development, for instance, can be dramatically desynchronized, and the resulting development gradients allow to analyze physiological inter-dependencies between locally separated subsystems. For this purpose a simple device has been developed, by which a stable linear gradient of 8 °C/cm is established on an inert metal sheet with the aid of Peltier elements. The effects of linear temperature gradients on fusion, growth, and migration of plasmodia of the slime moldPhysarum polycephalum was filmed by 16 mm film time-lapse technique, and their local contraction—relaxation cycles analysed by multistrip kymography, which represents a graphic documentation of the spatio-temporal pattern of protoplasmic movements that occur along well-defined regions within the giant cell.Physarum plasmodia preferentially fuse, and grow, in the range of 24–26 °C. Different parts of a single macroplasmodium can simultaneously show positive and negative thermotaxis. The contraction—relaxation cycles generating the protoplasmic shuttle streaming within the network of veins essentially depend on local temperatures and are instantaneously desynchronized by the temperature gradient. Thus they cannot be controlled by a central pacemaker or an overall electric signal. However, there is a strong tendency to locally synchronize the various oscillation frequencies present within the giant cell if temperature differences do not exceed 2 °C.