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661.
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663.
J. Moutinho‐Pereira C.M. Correia B. Gonçalves E.A. Bacelar J.F. Coutinho H.F. Ferreira J.L. Lousada M.I. Cortez 《The Annals of applied biology》2012,160(3):237-249
The impact of mixed infection of grapevine leafroll‐associated virus 1 and 3 (GLRaV‐1&‐3) on physiological performance of the Portuguese grapevine variety ‘Touriga Nacional’ was evaluated during 3 years with the main purpose of understanding the drastic reduction in yield. Overall, gas exchange was negatively affected in leaves with these leafroll virus infections. Particularly at ripeness stage, the reduction in stomatal conductance (gs) was higher than in net CO2 assimilation rate (A), leading to higher intrinsic water use efficiency (A/gs) in infected leaves. However, the decrease in gs and A were not a consequence of the decrease in bulk water potential, as the water index/normalised difference vegetation index ratio suggested similar magnitude for both treatments. The maximum quantum efficiency of photosystem II was unaffected by GLRaV‐1&‐3, whereas quantum effective efficiency of PSII, apparent electron transport rate and photochemical quenching significantly decreased in infected leaves and these was paralleled by a significant increase of non‐photochemical quenching. Relative to carbon metabolism, the analyses of the net CO2 assimilation rate/photosynthetic photon flux density (A/PPFD) and net CO2 assimilation rate/internal CO2 concentration (A/Ci) curves revealed that virus infection had a negative effect on light saturated rate of CO2 fixation at high irradiances and carboxylation efficiency but, in contrast, apparent quantum yield of CO2 fixation was significantly higher. Meanwhile, the presence of GLRaV‐1&‐3 resulted in a marked decrease in photosynthetic pigments, soluble sugars and soluble proteins contents, while starch and anthocyanins were significantly improved. N, P, Ca, S and Fe leaf concentrations significantly decreased, while K, Mg, B, Cu, Zn and Mn were unaffected by these two leafroll virus species. Infected plants showed a significant decrease in yield, mainly due to a lower cluster weight. These results emphasised the important role of GLRaV‐1&‐3 as a biotic stress for the grapevine physiology and consequently to yield attributes. 相似文献
664.
Located at northern latitudes and subject to large seasonal temperature fluctuations, boreal forests are sensitive to the changing climate, with evidence for both increasing and decreasing productivity, depending upon conditions. Optical remote sensing of vegetation indices based on spectral reflectance offers a means of monitoring vegetation photosynthetic activity and provides a powerful tool for observing how boreal forests respond to changing environmental conditions. Reflectance-based remotely sensed optical signals at northern latitude or high-altitude regions are readily confounded by snow coverage, hampering applications of satellite-based vegetation indices in tracking vegetation productivity at large scales. Unraveling the effects of snow can be challenging from satellite data, particularly when validation data are lacking. In this study, we established an experimental system in Alberta, Canada including six boreal tree species, both evergreen and deciduous, to evaluate the confounding effects of snow on three vegetation indices: the normalized difference vegetation index (NDVI), the photochemical reflectance index (PRI), and the chlorophyll/carotenoid index (CCI), all used in tracking vegetation productivity for boreal forests. Our results revealed substantial impacts of snow on canopy reflectance and vegetation indices, expressed as increased albedo, decreased NDVI values and increased PRI and CCI values. These effects varied among species and functional groups (evergreen and deciduous) and different vegetation indices were affected differently, indicating contradictory, confounding effects of snow on these indices. In addition to snow effects, we evaluated the contribution of deciduous trees to vegetation indices in mixed stands of evergreen and deciduous species, which contribute to the observed relationship between greenness-based indices and ecosystem productivity of many evergreen-dominated forests that contain a deciduous component. Our results demonstrate confounding and interacting effects of snow and vegetation type on vegetation indices and illustrate the importance of explicitly considering snow effects in any global-scale photosynthesis monitoring efforts using remotely sensed vegetation indices. 相似文献
665.
G. De Vito M. Bernardi R. Forte C. Pulejo F. Figura 《European journal of applied physiology and occupational physiology》1999,80(3):227-232
The effects of 12 weeks of a low-intensity general conditioning programme on maximal instantaneous peak power (Wpeak) and maximal oxygen uptake (VO2max) were examined in 20 elderly women. After medical, familiarisation, and ethical procedures, the subjects were randomly divided into either a training and or a control group. The training group [n = 11; mean (SD) age 63.0 (3.1) years] agreed to take part in a 12-week training programme at an exercise intensity kept under 60% of the heart rate reserve for about 60 min, 3 times a week. The control group [n = 9; mean (SD) age 63.5 (3.3) years] did not perform any particular physical training. Before and after the training period, all participants underwent anthropometric measures and a maximal cycling test to exhaustion to measure their VO2max. In addition, Wpeak was determined 1 week later by the subjects performing a vertical jump from a squatting position on a force platform. Following training, neither the anthropometric characteristics nor the VO2max changed in either of the groups. In contrast, Wpeak increased significantly (P < 0.001) in the training group, but did not change in the control group. This result could be interpreted as the result of an improved level of neuromuscular activation. Furthermore, it shows that although muscle power declines with age at a faster rate than does aerobic power, its sensitivity to training seems to be higher than that of the aerobic system. 相似文献
666.
ABSTRACT. An inexpensive and reliable electronic device is described which allows measurement, viewing and recording of electroantennogram (EAG) responses. Potential advantages of the device include low cost, simple operation, suitability for bench or field use, built-in digital readout, separate head amplifier, (+) and (-) peak value memories, and an exclusive automatic offset and drift cancelling circuit which does not introduce distortion. The device is intended for use in EAG recording, where signals with either rapid or slow depolarizations are being measured, bringing important information in the return-to-baseline region, as well as the (+) and (-) peak values of the EAG. 相似文献
667.
Susanna Kobylinski Carina Reble Sabine Schanzer Ingo Gersonde Georg Wiora Neysha Lobo Ploch Hans Karrer Ludger Kolbe Georg Khazaka Jürgen Lademann Martina C. Meinke 《Journal of biophotonics》2021,14(4):e202000453
The current method for determining the sun protection factor (SPF) requires erythema formation. Noninvasive alternatives have recently been suggested by several groups. Our group previously developed a functional sensor based on diffuse reflectance measurements with one UVB LED, which was previously evaluated on pig ear skin. Here we present the results of a systematic in vivo study using 12 sunscreens on 10 volunteers (skin types [ST] I-III). The relationship of the UVB-LED reflectance of unprotected skin and melanin index was determined for each ST. The spatial variation of the reflectance signal of different positions was analyzed and seems to be mainly influenced by sample inhomogeneity except for high-protection factors (PFs) where signal levels are close to detection noise. Despite the low-signal levels, a correlation of the measured LED-based UVB PF with SPF reference values from test institutes with R2 = 0.57 is obtained, suggesting a strong relationship of SPF and LED-based UVB-PF. Measured PFs tend to be lower for increasing skin pigmentation. The sensor design seems to be suitable for investigations where a fast measurement of relative changes of PFs, such as due to inhomogeneous application, bathing and sweating, is of interest. 相似文献
668.
Moritz Späth Martin Hohmann Maximilian Rohde Benjamin Lengenfelder Florian Stelzle Florian Klämpfl 《Journal of biophotonics》2021,14(4):e202000465
Multiple diseases are associated with a wide spectrum of microvascular dysfunctions, microangiopathies and microcirculation disorders. Monitoring the microcirculation could thus be useful to diagnose many local and systemic circulatory disorders and to supervise critically ill patients. Many of the scores currently available to help identify the condition of a microcirculation disorder are invasive or leave scope for interpretation. Thus, the present study aims to investigate with Monte-Carlo simulations (as numerical solutions of the radiative transfer equation) whether shifted position-diffuse reflectance imaging (SP-DRI), a non-invasive diagnostic technique, reveals information on the capillary diameter to assess the state of the microcirculation. To quantify the SP-DRI signal, the modulation parameter K is introduced. It proves to correlate almost perfectly with the capillary diameter (), making it a valid parameter for reliably assessing microcirculation. SP-DRI is emerging as an important milestone on the way to early and conveniently diagnosing microcirculation associated diseases. 相似文献
669.
The peak growth of plant in summer is an important indicator of the capacity of terrestrial ecosystem productivity, and ongoing studies have shown its responses to climate warming as represented in the mean temperature. However, the impacts from the asymmetrical warming, that is, different rates in the changes of daytime (Tmax) and nighttime (Tmin) warming were mostly ignored. Using 60 flux sites (674 site-year in total) measurements and satellite observations from two independent satellite platforms (Global Inventory Monitoring and Modeling Studies [1982–2015]; MODIS [2000–2020]) over the Northern Hemisphere (≥30°N), here we show that the peak growth, as represented by both flux-based maximum primary productivity and the maximum greenness indices (maximum normalized difference vegetation index and enhanced vegetation index), responded oppositely to daytime and nighttime warming. (peak growth showed negative responses to Tmax, but positive responses to Tmin) dominated in most ecosystems and climate types, especially in water-limited ecosystems, while (peak growth showed positive responses to Tmax, but negative responses to Tmin) was primarily observed in high latitude regions. These contrasting responses could be explained by the strong association between asymmetric warming and water conditions, including soil moisture, evapotranspiration/potential evapotranspiration, and the vapor pressure deficit. Our results are therefore important to the understanding of the responses of peak growth to climate change, and consequently a better representation of asymmetrical warming in future ecosystem models by differentiating the contributions between daytime and nighttime warming. 相似文献
670.
THOMAS F. DÖRING MATTHEW SKELLERN NIGEL WATTS SAMANTHA M. COOK 《Physiological Entomology》2012,37(4):360-378
The pollen beetle Meligethes aeneus Fabricius (Coleoptera, Nitidulidae), a pest of oilseed rape (Brassica napus), is known to respond to coloured stimuli; however, current understanding of the underlying mechanisms of colour choice in this species is limited. In the present study, physiological and behavioural experiments are conducted to determine the response of the pollen beetle to colours in the field. Spectral sensitivity is measured in 10 animals using the electroretinogram technique. Light flashes (100 ms) at varied wavelengths (340–650 nm, 10‐nm steps) and at different light intensities are applied to the eye after dark adaptation. In behavioural experiments in the field, 100 water traps of varying colours (from yellow to green to blue with varying amounts of white and black added, and with known spectral reflectance) are set out on a bare soil field in May 2008. The mean spectral sensitivity curve of M. aeneus peaks at 520 nm; however, a model template fitted to the long wavelength tail of the observed curve reveals a peak at approximately 540 nm (green). A secondary sensitivity peak is observed in the ultraviolet (UV) range (370 nm). A total of 2482 pollen beetles are captured in the coloured traps. The results show that the pollen beetles' preference for yellow over other colours can be modelled as a colour opponent mechanism (green versus blue); however, further experiments are needed to specify responses to colours with higher UV reflectance. These findings may be used to optimize trap colours for monitoring to help develop integrated pest management strategies for pollen beetle control. 相似文献