The electrical ageing of photovoltaic modules during extended damp-heat tests at different stress levels is investigated for three types of crystalline silicon photovoltaic modules with different backsheets, encapsulants and cell types. Deploying different stress levels allows determination of an equivalent stress dose function, which is a first step towards a lifetime prediction of devices. The derived humidity dose is used to characterise the degradation of power as well as that of the solar cell's equivalent circuit parameters calculated from measured current-voltage characteristics. An application of this to the samples demonstrates different modes in the degradation and thus enables better understanding of the module's underlying ageing mechanisms. The analysis of changes in the solar cell equivalent circuit parameters identified the primary contributors to the power degradation and distinguished the potential ageing mechanism for each types of module investigated in this paper.
Three clones, selected for their variation in salt tolerance, were examined regarding their growth and physiological responses on exposure to salt (NaCl) and abscisic acid (ABA) in vitro. The shoot proline levels significantly increased in two salt tolerant clones when exposed to 100 mM NaCl in the shoot multiplication medium. In contrast, proline in a salt sensitive clone did not change in comparison to the control treatment. When 10 micromolar ABA was included in the medium all clones had an increase in proline regardless of whether they were salt tolerant or salt sensitive, linking proline production to the stress hormone ABA. Callus production was so variable that it was not possible to produce callus of consistent texture, colour and growth for all three clones. For the two clones where consistent growth was achievable, both the salt tolerant and salt sensitive clones increased proline production when exposed to salt. This response, however, was greater in the salt tolerant clone. Other parameters examined were growth (dry weight) and shoot chlorophyll content. These characteristics did not correlate with the salt tolerance of the clones, with similar weights being produced on non salt and salt media and similar chlorophyll in both salt sensitive and salt tolerant clones regardless of the medium in which they were grown. The production of proline is considered with regard to selection for differences in salt tolerance in vitro
Fragmentation is generally considered to have negative impacts on widespread outbreeders but impacts on gene flow and diversity in patchy, naturally rare, self-compatible plant species remain unclear. We investigated diversity, gene flow and contemporary pollen-mediated gene immigration in the rare, narrowly distributed endemic shrub Calothamnus quadrifidus ssp. teretifolius. This taxon occurs in an internationally recognized biodiversity hotspot subjected to recent human-induced fragmentation and the condition of the remnants ranges from intact to highly degraded. Using microsatellites, we found that inbreeding, historically low gene flow and significant population differentiation have characterized the genetic system of C. quadrifidus ssp. teretifolius. Inbreeding arises from self-pollination, a small amount of biparental inbreeding and significant correlation of outcross paternity but fecundity was high suggesting populations might have purged their lethals. Paternity analyses show that pollinators can move pollen over degraded and intact habitat but populations in both intact and degraded remnants had few pollen parents per seed parent and low pollen immigration. Genetic diversity did not differ significantly between intact and degraded remnants but there were signs of genetic bottlenecks and reduced diversity in some degraded remnants. Overall, our study suggests human-induced fragmentation has not significantly changed the mating system, or pollen immigration to, remnant populations and therefore genetic connectivity need not be the highest conservation priority. Rather, for rare species adapted to higher levels of inbreeding, conservation efforts may be best directed to managing intact habitats and ecosystem processes.
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