Interactions between two biological control agents and their target weed: a beetle,a bug and a cactus weed

ABSTRACT

Pereskia aculeata Miller (Cactaceae) is an invasive alien shrub introduced into South Africa from Brazil. The leaf-feeding beetle, Phenrica guerini Bechyne (Chrysomelidae), was released as a biological control agent in South Africa in 1991 followed by the stem-wilting bug, Catorhintha schaffneri Brailovsky & Garcia (Coreidae), in 2014. This study investigated the interactions between the two agents under laboratory conditions. Potted plants were exposed to one of four treatments: control (no agents), P. guerini only, C. schaffneri only and both species together. Four densities, ranging from 2 to 12 insects per plant were used. Cathorhitha schaffneri alone at low to moderate densities resulted in the same reduction in number of leaves and shoot length as when combine with P. guerini. At the highest density, C. schaffneri reduced the number of leaves significantly more than any treatment. Mortality of P. guerini was significantly higher than C. schaffneri at the highest density when in combination. The antagonistic interaction between P. guerini and C. schaffneri suggests that these agents should not be released together because this would impact negatively on the overall biocontrol programme against P. aculeata. It is recommended that C. schaffneri should be released at sites where P. guerini is not present. Extrapolation of laboratory-based studies into the field is often challenging, so mass-rearing and releases of P. guerini should continue until there is convincing proof that C. schaffneri alone is more effective than P. guerini in the field.     

Biosynthesis of N-methylphenethylamine in Dolichothele sphaerica

Living Dolichothele sphaerica metabolized 1.91% of administered [2-¹⁴Clphenylalanine to N- methylphenethylamine. Phenethylamine, the presumable intermediate in this biosynthetic conversion, was detected in an extract of the cactus in very low concentrations. The addition of carrier to the extract allowed the isolation of radiolabelled phenethylamine and the establishment of its probable involvement in N- methylphenethylamine formation. This is the first report of N- methylphenethylamine biosynthesis, of phenyl- alanine serving as an efficient precursor to cactus alkaloids, and of the occurrence of phenethylamine in the Cactaceae.     

Ontogenetic mechanisms and the evolution of Cactaceae

Abstract

The ancestors of cacti were leafy trees that had hard, woody trunks. The development of the cactus body is controlled by ontogenetic mechanisms that have evolved, and now they produce a body that is leafless, succulent and has a photosynthetic cortex. Specific changes include: bark formation is postponed and the epidermis and stomata function for many years; the outer cortex is a palisade cortex with intercellular spaces; there are cortical bundles that resemble leaf veins but which have secondary xylem and phloem. Wood development has changed dramatically such that water storage is maximized (increased ray parenchyma) and danger of water stress is minimized (increased paratracheal parenchyma, loss of fibers). Several genera have polymorphic wood: the plants produce one type of wood for several years, then later they produce a different type. It is possible that the extensive evolutionary changes have resulted from mutations in the controller regions of genes, not in the structural regions.     

Two simple tetrahydroisoquinoline alkaloid N-oxides from cacti

Tehuanine N-oxide was isolated from Pachycereus pringlei, and deglucopterocereine N-oxide was isolated from Pterocereus gaumeri. These     

Epidermal and hypodermal characteristics in North American Cactoideae (Cactaceae)

Dermal and hypodermal anatomical features of 70 species representing 21 genera of North American Cactoideae were studied. Results show that all species examined have parallelocytic stomata and anticlinal wall surface varies from straight to undulate. Cuticle thickness is mostly narrow (1–10 μm) contrary to the general opinion that cuticle is thick in most cacti; however, few species such as Ariocarpus fissuratus and several species of Pachycereus show a distinctive thick cuticle. More than 80% of the species studied have a single-layered epidermis. Papillae occur in eight species belonging to four genera. Notable papillae are a feature shared by all members of Peniocereus subg. Peniocereus. Other species show a bullate surface produced by irregular patches of secondary epidermal cell divisions. Commonly, the hypodermis is composed of more than two cell layers with distinctive collenchymatous walls as reported in many South American species. Silica bodies, prismatic crystals, druses, sphaerocrystals, and tannins are the most common cellular inclusions that distinguish several genera and appear to have taxonomic value. However, a more thorough search in species of Cephalocereus, Coryphantha, Echinocereus, Mammillaria, Neobuxbaumia, Pilosocereus, and Turbinicarpus is needed to support the previous assertion. Electronic Publication     

Morphology,Anatomy and Histochemistry of Fagus grandifolia Ehrh. (North American Beech) Ectomycorrhizas

Abstract: Five distinct ectomycorrhizal morphotypes were recognized on root systems of Fagus grandifolia collected in a maple-beech woodlot. Three morphotypes showed extensive root branching whereas two had limited root branching. One morphotype, a bright orange, smooth type, was studied in detail anatomically. A compact mantle with few emanating extraradical hyphae covered the root apex of each mycorrhizal lateral. A Hartig net extended around epidermal and hypodermal cells. Roots were mostly diarch and a single-layered endodermis and a biseriate hypodermis with the inner hypodermis having suberized walls were present in all specimens examined. The mantle, and to a lesser extent the Hartig net, stored lipids, polysaccharides and proteins.     

仙人掌科果类植物的品种及生产(综述)

仙人掌科的主要果类植物有５属１８个品种。本文重点介绍以红龙果为代表的柱形仙人掌果的繁殖、栽培与加工利用。     

Isolation, characterization and cross-amplification of polymorphic microsatellite loci in the threatened endemic Mammillaria crucigera (Cactaceae)

The cactus Mammillaria crucigera is a threatened species endemic to central Mexico. As a means of assessing population genetic status of these species, eight microsatellite markers were developed. These primers were tested in 40 individual from two wild populations. The results showed that these primers will be useful to describe population structure and aid to the conservation of species. The eight primers were tested in other Mammillaria species and most of them showed successful amplification.     

N-methyltyramine: Formation in Opuntia clavata and metabolism in Coryphantha macromeris var. Runyonii

-Administration of tyramine-[1-¹⁴C] to Opuntia clavata resulted in the formation of labeled N-methyltyramine. This procedure established the biosynthetic origin of the major alkaloid in this cactus as well as providing a radiolabeled chemical that was not commercially available. The N-methyltyramine-[1-¹⁴C] was in turn administered to Coryphantha macromeris var. runyonii to determine its metabolic role in the biosynthesis of the psychoactive cactus alkaloid normacromerine (N-methyl-3,4-dimethoxy-β-hydroxyphenethylamine). This feeding experiment established N-methyltyramine as a precursor to normacromerine.     

Allometric neoteny and the evolution of succulence in cacti

With the objective of analysing the role of heterochrony in the evolution of succulence in the cactus family, a comparative study of xylem development in six species with contrasting morphologies was carried out. Two woody leaf-bearing cacti and four succulent cactus species belong to different subdivisions within the family were analysed. In each species and for different ages, vessel-element length was measured, vessel-element lateral wall-pitting described and the percentage of xylem and parenchyma in the stem quantified. In the succulent species it was found that vessel element length did not change between juvenile and adult wood, that wall-pitting in adult plants was similar to that of seedlings, and that the woody tissue in adult plants was organized in vascular bundles as in the primary tissue of seedlingS. Leaf-bearing cacti, in contrast, changed in both vessel element length and wall-pitting when secondary wood was produced, and the secondary woody tissue of adult plants was organized in a continuous cambial cylinder as in most dicotyledonS. An allometric analysis suggests that a retardation in the developmental rate of woody tissues (allometric neoteny) is the main mechanism in the development of succulence in cacti.