Lichens of six vernal pools in Acadia National Park, ME, USA

Whereas lichen-habitat relations have been well-documented globally, literature on lichens of vernal pools is scant. We surveyed six vernal pools at Acadia National Park on Mount Desert Island, Maine, USA for their lichen diversity. Sixty-seven species were identified, including seven species that are new reports for Acadia National Park: Fuscidea arboricola, Hypogymnia incurvoides, Lepraria finkii, Phaeographis inusta, Ropalospora viridis, Usnea flammea, and Violella fucata. Five species are considered uncommon or only locally common in New England: Everniastrum catawbiense, Hypogymnia krogiae, Pseudevernia cladonia, Usnea flammea, and Usnea merrillii. This work represents the first survey of lichens from vernal pools in Acadia National Park and strongly suggests that previous efforts at documenting species at the Park have underestimated its species diversity. More work should be conducted to determine whether a unique assemblage of lichens occurs in association with this unique habitat type

Investigation of the importance of rock chemistry for saxicolous lichen communities of the New Idria serpentinite mass, San Benito County, California, USA

Although several lichen inventories exist for European ultramafic sites, only four surveys of serpentine lichens for North America have been published to date. Of those, only one has been conducted in California. We conducted a survey of saxicolous lichens from ultramafic rocks (including nephrite, partially serpentinized peridotite, and serpentinite) and non-ultramafic rocks (including silica-carbonate, shale, and sandstone) at the New Idria serpentinite mass, San Benito County, California. X-ray Fluorescence Analysis of the rocks from which the lichens were collected revealed significant elemental differences between the ultramafic and non-ultramafic rocks for 26 of the 32 major and trace elements analyzed. We identified a total of 119 species of lichenized and lichenicolous fungi; 60 species were restricted to ultramafic substrata, 19 to silica-carbonate, and 15 to shale and sandstone. Only 4 species were shared in common. A permutational multivariate analysis of variance (perMANOVA) test revealed significant differences in lichen assemblages between ultramafic and non-ultramafic rocks at the species level but not at the generic level, with species richness (alpha-diversity) significantly greater at the ultramafic sites. We suggest that, although differences in geochemistry clearly influence the lichen community composition, other factors, especially substratum age and the physical characteristics of the rock, are of equal, if not greater, importance. Of all the species collected, six, Buellia aethalea, B. ocellata, Caloplaca oblongula, Rhizocarpon saurinum, Thelocarpon laureri, and Trapelia obtegens, are reported new to California, along with an apparently previously undescribed Solenopsora sp. The rest of the species encountered are relatively frequent in the lichen flora of southern and central California, except Aspicilia praecrenata, a rare California endemic that we collected on both ultramafic and non-ultramafic rocks

Blueberry Advisory Committee Research Report

The 1987 edition of the Blueberry Advisory Committee Research Reports was prepared for the Maine Wild Blueberry Commission and the University of Maine Wild Blueberry Advisory Committee by researchers with the Maine Agricultural Experiment Station and Maine Cooperative Extension Service at the University of Maine, Orono. Projects in this report include: 1. Effect of Pruning Practices on Blueberry Insect Abundance 2. Economic Thresholds and Control of Secondary Blueberry Pests 3. Control of Blueberry Maggot 4. Evaluation of Fungicides for Control of Botrytis Blight on Lowbush Blueberry, 1987 5. Evaluation of Fungicides for Control of Mummy Berry on Lowbush Blueberry, 1987 6. Miscellaneous Activity: a) Fungicide Residue Analysis b) Blueberry fact sheet c) Berry contamination 7. Effects of Pruning Methods on Mummy Berry Disease Incidence, 1987 8. Effects of Pruning Methods on Powdery Mildew and Red Leaf Disease Incidence, 1987 9. Nutrition Survey 1987 10. Nutritional Responses of Seedlings 11. The Effect of Several Mulches on Frost Heaving, Soil Moisture, Soil Temperature and Rhizome Development 12. Time-temperature Effects on Sugar Migration and Physical Characterization in Lowbush Blueberries 13. Fabricated Blueberry Raisins Prepared from Puree using Alginate as the Gelling Agent 14. Blueberry Gelatin 15. Effect of Hexazinone (VELPAR) on Species Distribution in Lowbush Blueberry Fields 16. Evaluation of Postemergence Herbicides for Grass Control 17. Evaluation of Sulfonyl urea and Imidazoline compounds for Bunchberry Control 18. Use of Mechanical wiper with glyphosate (ROUNDUP) or dicamba for control of dogbane 19. Integrated Weed Management 20. Evaluation of Five Preemergence Herbicides for Control of Oat grass and Bunchgrass 21. Wiper Application of Dicamba for Woody Weed control 22. Hexazinone (VELPAR) and terbacil (SINBAR) combinations for weed control 23. Evaluation of Clopyralid and Lactofen for Bunchberry Control 24. Evaluation of Postemergence Applications of chlorimuron for Bunchberry Control 25. Hexazinone seedling study 26. Seedling Pruning Study 27. Effect of bracken fern on blueberry yield 28. Evaluation of two mechanical harvesters vs hand raking of lowbush blueberrie

Nitrate reduction in seedlings of carob (Ceratonia siliqua L.)

ACESSO via B-on: http://dx.doi.org/doi:10.1111/j.1469-8137.1991.tb00041.xThe distribution of nitrate reduction in young caroh plants (Ceratonia siliqua L. cv. Mulata) was studied. Plants (three months old) were grown in aerated nutrient solutions under greenhouse conditions. Reduction of nitrate was estimated both in the leaves and in the roots by: (a) accumulation of nitrite in vitro, (b) accumulation of nitrite in vivo and (c) disappearance of nitrate in vivo. Disappearance of nitrate in vivo offered the closest estimation of the rate of nitrate reduction. Leaves consistently showed rates of nitrate reduction lower than those in roots, regardless of assay method. Lowering root temperature had no marked effect on the distribution of nitrate reductase activity in the plant; increasing nitrate concentration in the shoot, however, markedly increased leaf nitrate reduction. The relatively low level of nitrate reductase in leaves appears to be caused mainly by a limitation of nitrate transport from root to shoot. Nitrate reduction takes place in both the root and the shoot of young carob plants with the shoot accounting for approximately 20" (, of total nitrate reduction in the plant

Nitrogen assimilation and transport in carob plants

This paper is part of the contributions to the Proceedings of the 3rd Internacional Symposium on Inorganic Nitrogen Assimilation, held in Tiberias, Israel, 6-11 September, 1992Most of the nitrate reductase activity (80%;) in carob (Ceratonia siliqua L. cv. Mulata) is localised in the roots. The nitrate concentration in the leaves is relatively low compared to that in the roots, suggesting that nitrate influx into the leaf may be a major factor limiting the levels of nitrate reductase in the shoot. Transport of nitrate from root to shoot appears limited by the entrance of nitrate into the xylem. In order to study this problem, we determined the nitrate concentrations and nitrate reductase activities along the roots of nitrate-grown plants, as well as the composition of the xylem sap and the nitrate levels in the leaves. Some of the the bypocotyl, in order to bypass the loading of nitrate into the xylem of the roots. The results show that the loading of nitrate into the xylem is a limiting step. The cation and anion concentrations of nitrate- and ammonium-fed plants were similar, showing almost no production of organic anions. In both nitrate- and ammonium-fed plants, the transport of nitrogen from root to shoot was in the form of organic nitrogen compounds. The nitrate reductase activity in the roots was more than sufficient to explain all the efflux of OH− into the root medium of nitrate-fed plants. In carob plants the K-shuttle may thus be operative to a limited extent only, corresponding to between 11 and 27%; of the nitrate taken up. Potassium seems to be the cation accompanying stored nitrate in the roots of carob seedlings, since they accumulate nearly stoichiometric amounts of K+ and NO−3