New defensive chemical data for ground beetles (Goleoptera: Carabidae): interpretations in a phylogenetic framework

First reports of major defensive chemicals for ground beetles representing four tribes include: Morionini (formic acid), Dercylini (methacrylic and tiglic acids), Catapieseini (formic acid and decyl acetate) and Perigonini (formic acid and dccyl acetate). Multiple species from Loxandrini were sampled and, shown to contain formic acid, not salicylaldehyde as previously reported. Several hexenoic acid compounds were found in the clivinine genus Schizogenius representing a third class of chemicals for that tribe. Salicylaldehyde was found for the first time in a species of Oodini. Additional species from Pterostichini, Patrobini and Odacanthini were sampled and the results were found to be consistent with previously published reports. The taxonomic distribution of defensive secretions is reviewed for tribes across the family Carabidae. The simultaneous occurrence of hydrocarbons and formic acid is noted in phylogenetically more derived carabids. By mapping chemical classes onto a phylogenetic hypothesis, it is shown that formic acid or other relatively strong irritants are correlated with tribes having a high species diversity in tropical regions, whereas tribes exhibiting higher diversity in temperate regions use milder saturated/unsaturatcd earboxylic acids. Based on this phylogenetic interpretation, the evolution and maintenance of formic acid is interpreted as the result of predation pressures and possibly the evolution of chemical mimicry.     

Effects of Temperature and Photoperiod on Winged Beans [Psophocarpus tetragonolobus (L.) D.C.]

The effects of temperature and photoperiod on winged beans werestudied using 15 University of New Guinea (UPS) selections andfive Sri Lanka (SL) selections. They were grown at 25/20 or30/25 °C day/ night temperature at 11 or 14 h photoperiodwith 12 h thermoperiod. Differences in stomatal density wereobserved among selections and between photoperiods. Higher densitiesoccurred at 14 h photoperiod than at 11 h photoperiod. Whenstomatal density was high due to a photoperiod or temperatureeffect, there was a corresponding increase in leaf area andd. wt of plants. Total chlorophyll content at 25/20 °C was higher at 11 hphotoperiod than at 14 h photoperiod in all selections whilethe total chlorophyll content at 30/25 °C varied with thephotoperiod and selection. Leaf area of SL selections was greater than that of UPS selections.Also greater leaf area was observed at 14 h photoperiod thanat 11 h photoperiod, irrespective of the growing temperature. Temperature was as important as photoperiod in controlling floweringof winged beans. All the UPS selections and two SL selectionsflowered at 11 h photoperiod at 25/20 °C but failed to flowerat the same photoperiod at 30/25 °C indicating an interactionbetween temperature and photoperiod. It is likely that wingedbeans have a narrow photoperiodic range, particularly the SLselections. Psophocarpus tetragonolobus (L.) D.C., winged bean, stomatal density, leaf area, flowering, temperature, photoperiod