High frequency adventitious shoot regeneration in sainfoin

A procedure is described for the rapid and efficient adventitious shoot regeneration from leaflets, petioles and stems of field-grown sainfoin plants. All explants formed shoots on a range of media supplemented with 6-benzyladenine (BA) and α-naphthaleneacetic acid (NAA). Stem explants appeared to have better regeneration capacity than leaflet and petiole explants in most media tested. The highest frequency of shoot regeneration was achieved from stem segments on a medium containing 20 μM BA and 0.5 μM NAA. Regenerated shoots rooted in half-strength Murashige and Skoog medium containing 5 μM indole-3-butyric acid and later established well under greenhouse conditions. This revised version was published online in June 2006 with corrections to the Cover Date.     

Heterogeneity in semi-natural grasslands: the importance of the elevational gradient

Heterogeneity patterns in semi-natural grasslands were studied within 20 sites at 4 different elevational levels ranging from 530 m a.s.1. at level 1 (southern boreal region) to 1230 m a.s.1. at level 4 (low alpine region) in Vang, southern Norway. Vegetational heterogeneity decreased with elevation for vascular plants. Cryptogam species increased in heterogeneity at mid-elevational levels (750 and 915 m a.s.1.), but heterogeneity decreased again at level 4. Mean values of soil nutrients and other soil variables (e.g. loss on ignition), and their heterogeneity increased with elevation, while pH showed a decrease for both parameters. The general increase in environmental heterogeneity in the soil was not reflected in vascular plant heterogeneity because soil variables explained 40 % variation at both level 1 and 4. However, the relative differences among levels suggest that vascular plant species patterns were more sensitive to soil heterogeneity at lower elevational levels. Soil variables were also relatively more important in structuring cryptogam species at higher elevations (level 3 and 4) compared to vascular plant species. The discrepancy between vascular plants and cryptogams are also shown in the relationship between heterogeneity and diversity. Gamma diversity decreased with decreasing heterogeneity of vascular plants, while the highest value of large scale cryptogam diversity corresponded with the lowest heterogeneity value at level 4. Alfa-diversity peaked at an intermediate level of heterogeneity for vascular plants while alfa-diversity of cryptogams decreased with increasing values of heterogeneity.     

Studies in the lichen family Collemataceae VI. Collema subundulatum, a new species from New Zealand

Collema subundulatum from New Zealand is described. It is closely related to C. undulatum , a species widely distributed in the Northern Hemisphere. It is phytogeographically somewhat similar to C. novozelandicum which is here recorded from Australia, its first known locality outside New Zealand.     

Stem-growth response of Pinus sylvestris and Picea abies to nitrogen fertilization as related to needle nitrogen concentration

 Responses of stem-volume growth to N application were evaluated in relation to foliar N concentrations. Data from N-fertilization experiments in 28 Pinus sylvestris stands and 21 Picea abies stands were used. Relative stem-growth responses were negatively related to concentrations of N in current-year needles of unfertilized trees. There appeared to be a threshold value of 15–16 mg (g DM)^–1 N in current-year needles, above which N-application is unlikely to stimulate growth. However, relations were non-significant between N concentrations in current-year needles and the absolute stem-growth response [dm³ ha^–1 (5 years)^–1]. The indicated threshold values are discussed in relation to other variables reflecting the N richness of the environment.--> Received: 20 December 1996 / Accepted: 30 September 1997     

A metabarcoding analysis of the wrackbed microbiome indicates a phylogeographic break along the North Sea–Baltic Sea transition zone

Sandy beaches are biogeochemical hotspots that bridge marine and terrestrial ecosystems via the transfer of organic matter, such as seaweed (termed wrack). A keystone of this unique ecosystem is the microbial community, which helps to degrade wrack and re-mineralize nutrients. However, little is known about this community. Here, we characterize the wrackbed microbiome as well as the microbiome of a primary consumer, the seaweed fly Coelopa frigida, and examine how they change along one of the most studied ecological gradients in the world, the transition from the marine North Sea to the brackish Baltic Sea. We found that polysaccharide degraders dominated both microbiomes, but there were still consistent differences between wrackbed and fly samples. Furthermore, we observed a shift in both microbial communities and functionality between the North and Baltic Sea driven by changes in the frequency of different groups of known polysaccharide degraders. We hypothesize that microbes were selected for their abilities to degrade different polysaccharides corresponding to a shift in polysaccharide content in the different seaweed communities. Our results reveal the complexities of both the wrackbed microbial community, with different groups specialized to different roles, and the cascading trophic consequences of shifts in the near shore algal community.     

Morphology of female reproductive system of Mediterranean flatheaded peachborer,Capnodis tenebrionis (Linnaeus, 1761) (Coleoptera: Buprestidae)

Capnodis tenebrionis causes damage in many species of Rosaceae. The present study investigates on the morphology of the female reproductive system of C. tenebrionis. The female reproductive system of C. tenebrionis has a pair of ovaries, lateral oviducts, a common oviduct, spermatheca, and bursa copulatrix. Each ovary in C. tenebrionis consists of approximately 24 telotrophic meroistic type ovarioles. The ovarioles of C. tenebrionis have four regions (terminal filament, tropharium, vitellarium, and pedicel). Tropharium have trophocytes, young oocytes, and prefollicular cells. Vitellarium consists of previtellogenic, vitellogenic, and choriogenic oocytes. Previtellogenic oocyte is surrounded by cylindrical epithelial cells. Its ooplasm is homogeneous and basophilic. In vitellogenic oocyte, there are intercellular spaces between monolayered follicle cells. Its ooplasm has yolk granules and lipid droplets. Choriogenic oocyte are surrounded by chorion and single-layered cylindrical cells. There are yolk granules and lipid droplets in its ooplasm which is asidophilic. In C. tenebrionis female, spermatheca and bursa copulatrix wall is surrounded by thin cuticular intima, monolayer epithelial, glandular cells, and muscle layer. Spermatheca lumen contains a large number of spermatozoa. Bursa copulatrix lumen is filled with secretory material. This study may be useful in terms of the morphology of mature female reproductive organs of Buprestidae and other coleopteran species.     

Fragrance chemotypes of Platanthera (Orchidaceae) - the result of adaptation to pollinating moths?

Floral scent of Platanthera species (Orchidaceae) in S Sweden was collected by head-space adsorption methods in the field and analysed by gas chromatography-mass spectrometry (GC-MS). Variation in scent chemistry of both Platanthera bifolia and P. chlorantha was considerable: different scent chemotypes were found among individuals as well as populations. Mainly linalool, lilac aldehydes and alcohols, geraniol, and methyl benzoate distinguished the chemotypes. Because of a high individual variation, floral scent in Platanthera is not suitable as a taxonomic tool. Scent variation can be the result of differential selection from various pollinators or pollinator groups. However, in a long-spurred race of P. bifolia the scent profile was not clearly different from that of short-spurred races in spite of their different pollinators. The two species form natural hybrids and part of the variation at the individual level may he explained by interspecific introgression. Differences found among populations in different regions may be the result of random genetic drift.     

Photosynthesis,photoinhibition and low temperature acclimation in cold tolerant plants

Cold acclimation requires adjustment to a combination of light and low temperature, conditions which are potentially photoinhibitory. The photosynthetic response of plants to low temperature is dependent upon time of exposure and the developmental history of the leaves. Exposure of fully expanded leaves of winter cereals to short-term, low temperature shiftsinhibits whereas low temperature growthstimulates electron transport capacity and carbon assimilation. However, the photosynthetic response to low temperature is clearly species and cultivar dependent. Winter annuals and algae which actively grow and develop at low temperature and moderate irradiance acquire a resistance to irradiance 5- to 6-fold higher than their growth irradiance. Resistance to short-term photoinhibition (hours) in winter cereals is a reflection of the increased capacity to keep Q_A oxidized under high light conditions and low temperature. This is due to an increased capacity for photosynthesis. These characteristics reflect photosynthetic acclimation to low growth temperature and can be used to predict the freezing tolerance of cereals. It is proposed that the enhanced photosynthetic capacity reflects an increased flux of fixed carbon through to sucrose in source tissue as a consequence of the combined effects of increased storage of carbohydrate as fructans in the vacuole of leaf mesophyll cells and an enhanced export to the crown due to its increased sink activity. Long-term exposure (months) of cereals to low temperature photoinhibition indicates that this reduction of photochemical efficiency of PS II represents a stable, long-term down regulation of PS II to match the energy requirements for CO₂ fixation. Thus, photoinhibition in vivo should be viewed as the capacity of plants to adjust photosynthetically to the prevailing environmental conditions rather than a process which necessarily results in damage or injury to plants. Not all cold tolerant, herbaceous annuals use the same mechanism to acquire resistance to photoinhibition. In contrast to annuals and algae, overwintering evergreens become dormant during the cold hardening period and generally remain susceptible to photoinhibition. It is concluded that the photosynthetic response to low temperatures and susceptibility to photoinhibition are consequences of the overwintering strategy of the plant species.