Nine new tetranucleotide microsatellite markers for the fire‐bellied toad (Bombina bombina)

We describe nine new polymorphic tetranucleotide microsatellite loci isolated from the fire‐bellied toad (Bombina bombina). The relative yield of new loci was higher than described in previous studies in amphibians: out of 12 loci initially evaluated, nine were polymorphic and amplifying reliably. Number of alleles ranged from four to 10 and observed heterozygosities from 0.47 to 0.91. Seven loci were polymorphic also in Bombina variegata and five in Bombina orientalis. Enrichment protocols yielding long flanking regions potentially overcome difficulties (i.e, low yield of reliable loci relative to number of clones screened) which have been reported in microsatellite development in anurans.     

The determination of activity of the enzyme Rubisco in cell extracts of the dinoflagellate alga Symbiodinium sp. by manganese chemiluminescence and its response to short‐term thermal stress of the alga

The dinoflagellate alga Symbiodinium sp., living in symbiosis with corals, clams and other invertebrates, is a primary producer in coral reefs and other marine ecosystems. The function of the carbon‐fixing enzyme ribulose 1,5‐bisphosphate carboxylase/oxygenase (Rubisco) in dinoflagellates is difficult to study because its activity is rapidly lost after extraction from the cell. We report procedures for the extraction of Rubisco from Symbiodinium cells and for stable storage. We describe a continuous assay for Rubisco activity in these crude cell extracts using the Mn²⁺ chemiluminescence of Rubisco oxygenase. Chemiluminescence time courses exhibited initial transients resembling bacterial Form II Rubisco, followed by several minutes of linearly decreasing activity. The initial activity was determined from extrapolation of this linear section of the time course. The activity of fast‐frozen cell extracts was stable at ?80 °C and, after thawing and storage on ice, remained stable for up to 1 h before declining non‐linearly. Crude cell extracts bound [¹⁴C] 2‐carboxy‐D‐arabitinol 1,5‐bisphosphate to a high molecular mass fraction separable by gel filtration chromatography. After pre‐treatment of Symbiodinium cell cultures in darkness at temperatures above 30 °C, the extracted Rubisco activities decreased, with almost complete loss of activity above 36 °C. The implications for the sensitivity to elevated temperature of Symbiodinium photosynthesis are assessed.     

Mass loss and nutrient release from decomposing evergreen and deciduous Nothofagus litters from the Chilean Andes

Abstract Leaf litter decomposition experiments were conducted on two deciduous (Nothofagus obliqua (roble)) and Nothofagus pumilio (lenga)) and one evergreen (Nothofagus dombeyi) Nothofagus (Nothofagaceae) species from a single Chilean forest in order to understand how congeneric trees with differing leaf lifespans impact the soil in which they grow. Single‐species litter samples were decomposed in a mixed hardwood forest in Ohio and in a deciduous‐evergreen Nothofagus forest in Chile. In the Ohio forest, the two deciduous species’ litters decomposed at k ≈ 1.00 per year and the evergreen at k ≈ 0.75 per year. In Chile k ranged from k ≈ 0.06 (N. obliqua) to k ≈ 0.23 (N. pumilio) per year. In both experiments, N and P were released faster from the deciduous litters than from evergreen litter. In Ohio, evergreen litter immobilized more N and P for a longer time period than did deciduous litter. As N. dombeyi stands tend to have lower available soil N and P in this particular mixed Nothofagus forest, the increased time of N and P immobilization by N. dombeyi litter suggests a feedback role of the tree itself in perpetuating low N and P soil conditions.     

Ecological Bases of Hormone--Behavior Interactions: The "Emergency Life History Stage"

SYNOPSIS. Superimposed upon seasonal changes in morphology,physiology and behavior, are facultative responses to unpredictableevents known as labile (i.e., short-lived) perturbation factors(LPFs). These responses include behavioral and physiologicalchanges that enhance survival and collectively make up the "emergency"life history stage. There is considerable evidence that glucocorticosteroids,and other hormones in the hypothalamo—pituitary—adrenal(HPA) cascade, initiate and orchestrate the emergency life historystage within minutes to hours. This stage has a number of sub—stagesthat promote survival and avoid potential deleterious effectsof stress that may result from chronically elevated levels ofcirculating glucocorticosteroids over days and weeks. Thesesub—stages may include: redirection of behavior from anormal life history stage to increased foraging, irruptivetypemigration during the day, enhanced restfulness at night, andelevated gluconeogenesis. Once the perturbation passes, glucocorticosteroidsmay also promote recovery. Additional evidence from birds indicatesthat glucocorticosteroid responses to a standardized capture,handling and restraint protocol are modulated both on seasonaland individual levels. Field work reveals that these changesin responsiveness to LPFs have ecological bases, such as reproductivestate, body condition etc., that in turn indicate differenthormonal control mechanisms in the HPA cascade.     

Influence of pheromone concentration and ambient temperature on flight of the gypsy moth, Lymantria dispar (L), in a sustained-flight wind tunnel

Abstract. The effects of pheromone concentration and ambient temperature on male gypsy moth, Lymantria dispar (L.) (Lepidoptera), flight responses to pheromone were investigated in a wind tunnel. As the pheromone dose increased from 10 ng to 1000 ng, males flew at progressively slower airspeeds and ground speeds, and reduced their wingbeat frequencies. Furthermore, the moths steered significantly smaller course angles as the pheromone concentration increased, indicating that they were adopting a more upwind heading. The overall width of the flight tracks also decreased when males flew in more concentrated pheromone plumes. Estimation of plume dimensions using a male wing-fanning assay showed that as pheromone dosage increased, the resultant active spaces became wider, indicating that an inverse relationship existed between the dimensions of the time-averaged plume and the width of track reversals and that most turns were initiated within the plume. When males were flown at cool (20°C) and warm (26°C) ambient temperatures but to equivalent pheromone emission rates, they exhibited higher airspeeds and ground speeds at the higher temperature but steered larger course angles. Track widths, and length of track legs were, however, similar at the two temperatures. The mean turning frequency was nearly the same (c. 4 turns/s) across all the concentrations and temperatures tested even though the moths' thoracic temperature differed by 5°C when the ambient temperature was varied.     

The Role of the Pineal Body in Ectotherm Thermoregulation

The pineal complex may be a part of the sensory and centralneural system controlling thermoregulatory behavior. The pinealand parapineal organs of some ectotherms appear to functionas radiation dosimeters, regulating exposure to sunlight. Physiologicalthermoregulation may be influenced by the pineal complex throughcardiovascular adjustments or metabolic rates. Additionally,the pineal organ may exert thermoregulatory effects throughthe control of brain electrolytes. While the precise mechanismsof action remain to be defined, it is clear that pineal-parapinealorgans participate in thermoregulatory adjustments by actingupon the central nervous system.     

C. O. Whitman and the American Society of Zoologists

C. O. Whitman (1842–1910) studied under Louis Agassiz,Anton Dohrn, and Rudolph Leuchart. Under the influence of E.S. Morse, Whitman served as the second professor of zoologyat the University of Tokyo (1880–81). For three yearshe was assistant to Alexander Agassiz at the Museum of ComparativeZoology. Between 1883 and 1886 Whitman was editor of the Departmentof Microscopy for the American Naturalist. He became the firstdirector of the Marine Biological Laboratory at Woods Hole,serving until 1908, and built that institution into an internationallyfamous center for education and research. He also became firstprofessor of Zoology at the University of Chicago where he remainedfor life. In 1887 he founded the Journal of Morphology, andlater Biological Lectures, and Zoological Bulletin which becamethe Biological Bulletin. His own research was in the fieldsof embryology, heredity, and evolution. In 1890 he, with colleagues,founded the American Morphological Society which became theAmerican Society of Zoologists over a period of 13 years (1901–13)by the union of regional groups. Whitman played a leading rolein the founding and early history of the Society.     

Relative Elemental Rates and Anisotropy of Growth in Area: a Computer Programme

A method of analysis of growth patterns in two dimensions haspreviously been proposed by Richarads and Kavanagh (1943),whichconsists of evaluating the divergence of velocity by vectoranalysis. The method has been adpted for solution by numericalmethods, and has been programmed for an electronic computer.The method and the programme are described, and applied to theanalysis of leaf growth in Xanthium. These preliminary resultssuggest that the system could be successfully applied to a widevariety of problem of 2-dimensional growth.