Sarah E. Thomas

Endophytes and mycoparasites associated with an indigenous forest tree, Theobroma gileri, in Ecuador and a preliminary assessment of their potential as biocontrol agents of cocoa diseases

The main constraint and continuing threat to cocoa production in Latin America is disease caused by two basidiomycete fungi belonging to the genus Crinipellis (Agaricales), both of which are currently on an invasive front. Classical biological control, in which coevolved natural enemies are considered to offer the most potential for sustainable control of invasive alien organisms, is investigated as a management strategy. Our initial approach has been to search for the suspected coevolved host (Theobroma gileri) of one of these pathogens, Crinipellis roreri, the causal agent of frosty pod rot, in the mesic forests of north-west Ecuador; to isolate the endophytes and mycoparasites associated with both host and pathogen; to screen selected fungi in the greenhouse and laboratory, in order to determine their biocontrol potential. Endophytes were isolated directly in the field from healthy tree boles and pods, and over 40 genera were recorded, mainly representing anamorphs of Hypocreales in the genera Acremonium, Clonostachys, Trichoderma and Verticillium, as well as basidiomycetes belonging to the Agaricales and Polyporales. Of the endophytic fungi tested, most can be inoculated into and recovered from asymptomatic cocoa seedlings. Twenty-eight mycoparasitic species were isolated from diseased pods and selected mycoparasites as well as endophytes were screened against C. roreri using the pre-colonised plate method. Consistently high mycoparasitism of the C. roreri pseudostroma was demonstrated, particularly by a complex of Clonostachys and Trichoderma species.

Taxonomy and biocontrol potential of a new species of Trichoderma from the Amazon basin of South America.

The new species Trichoderma ovalisporum is described and its biocontrol potential against Crinipellis species is analyzed. Using partial nuclear translation elongation factor 1α (EF-1α) and partial nuclear actin gene intron and exon sequences, T. ovalisporum is identified as a member of Trichoderma sect. Trichoderma and as a close relative of T. koningii-like taxa that have ellipsoidal to oblong, smooth conidia. Sequences of the internal transcribed spacer regions 1 and 2 (ITS) of the nuclear ribosomal gene cluster did not resolve the phylogeny of T. ovalisporum and its closest relatives. Trichoderma ovalisporum is morphologically similar to T. koningii, Hypocrea stilbohypoxyli, and three as yet undescribed Trichoderma taxa. It differs from its close relatives in having smaller, ovoidal conidia and in its fast rate of growth at 30 °C. Trichoderma ovalisporum was isolated twice: once from witches’ broom (Crinipellis perniciosa)-infected tissue of a liana (Banisteriopsis caapi, Malpighiaceae) collected in Ecuador. The second isolation was from the healthy bole of a mature tree of Theobroma grandiflorum (cupuaçu, Malvaceae) collected in Brazil (Pará). The liana isolate reinfected and was reisolated from meristematic tissues of seedlings of Theobroma cacao, and inhibited radial growth of the frosty pod rot pathogen (Crinipellis roreri) in vitro. It also persisted on the surface, and within the tissues, of cocoa pods in the field for at least 10 weeks.

Studies on the rust Prospodium tuberculatum, a new classical biological control agent released against the invasive alien weed Lantana camara in Australia. 1. Life-cycle and infection parameters.

The neotropical rust fungus Prospodium tuberculatum was released in Australia in 2001 for the classical biological control of the invasive alienweed Lantana camara, following a risk assessment that included studies on its life-cycle, infection parameters and host range. This paper reports on the first two research areas. This rust is recorded as autoecious and microcyclic (urediniospores and teliospores only) in the literature, but the role of the teliospores had not been demonstrated. Extensive field surveys reported here found the rust to cycle solely through urediniospores on L. camara throughout most of its native range. However, at the high altitude extremes of its range, the rust has retained its ability to over-winter as teliospores. Attempts to clarify the function of the basidiospores and the conditions necessary to induce teliospore formation were unsuccessful under controlled conditions. A hypothesised connection between P. tuberculatum and Aecidium lantanae was rejected after DNAanalysis. Investigations on spore storage showed that teliospores and urediniospores can survive for extended periods in liquid nitrogen. Glasshousebased studies demonstrated that the urediniospores have wide temperature tolerance (10–25°C) for infection of L. camara, with an optimum near to 20°C. The minimum dew period requirement for plant infection was 9 h with the optimum close to 15 h.

Studies on the rust Prospodium tuberculatum, a new classical biological control agent released against the invasive alien weed Lantana camara in Australia. 2. Host range

A strain of the rust Prospodium tuberculatum from Brazil was screened as a potential biocontrol agent against 40 Australian Lantana camara forms and 52 closely related, non-target plant species. Results under glasshouse conditions showed that the Brazilian rust strain is pathogenic to only two flower colour forms: pink and pink-edged red. Macro- and microsymptoms were recorded using 11 assessment categories and four susceptibility ratings. No macrosymptoms were observed on any of the non-target plants. Additional keywords: fungus, pathogens.

Corrigendum to: Rodent management issues in South Pacific islands: a review with case studies from Papua New Guinea and Vanuatu

Rodents are a key pest to agricultural and rural island communities of the South Pacific, but there is limited information of their impact on the crops and livelihoods of small-scale farmers. The rodent pest community is known, but the type and scales of damage to different crops on different islands are unknown. Knowledge about rodent pest management in other geographical regions may not be directly transferable to the Pacific region. Many studies on islands have largely focussed on the eradication of rodents from uninhabited islands for conservation benefits. These broadscale eradication efforts are unlikely to translate to inhabited islands because of complex social and agricultural issues. The livelihoods, culture and customs of poor small-scale farmers in the South Pacific have a large bearing on the current management of rodents. The aim of the present review was to describe the rodent problems, impacts and management of rodents on South Pacific islands, and identify gaps for further research. We compared and contrasted two case studies. The situation in Papua New Guinea is emergent as several introduced rodent species are actively invading new areas with wide-ranging implications for human livelihoods and conservation. In Vanuatu, we show how rodent damage on cocoa plantations can be reduced by good orchard hygiene through pruning and weeding, which also has benefits for the management of black pod disease. We conclude that (1) damage levels are unknown and unreported, (2) the impacts on human health are unknown, (3) the relationships between the pest species and their food sources, breeding and movements are not known, and (4) the situation in Papua New Guinea may represent an emergent crisis that warrants further investigation. In addition, there is a need for greater understanding of the invasive history of pest rodents, so as to integrate biological information with management strategies. Ecologically based rodent management can be achieved on Pacific Islands, but only after significant well funded large-scale projects are established and rodent ecologists are trained. We can learn from experiences from other locations such as Southeast Asia to guide the way.

Rodent management issues in South Pacific islands: a review with case studies from Papua New Guinea and Vanuatu

Abstract. Rodents are a key pest to agricultural and rural island communities of the South Pacific, but there is limited information of their impact on the crops and livelihoods of small-scale farmers. The rodent pest community is known, but the type and scales of damage to different crops on different islands are unknown. Knowledge about rodent pest management in other geographical regions may not be directly transferable to the Pacific region. Many studies on islands have largely focussed on the eradication of rodents from uninhabited islands for conservation benefits. These broadscale eradication efforts are unlikely to translate to inhabited islands because of complex social and agricultural issues. The livelihoods, culture and customs of poor small-scale farmers in the South Pacific have a large bearing on the current management of rodents. The aim of the present review was to describe the rodent problems, impacts and management of rodents on South Pacific islands, and identify gaps for further research. We compared and contrasted two case studies. The situation in Papua New Guinea is emergent as several introduced rodent species are actively invading new areas with wide-ranging implications for human livelihoods and conservation. In Vanuatu, we show how rodent damage on cocoa plantations can be reduced by good orchard hygiene through pruning and weeding, which also has benefits for the management of black pod disease. We conclude that (1) damage levels are unknown and unreported, (2) the impacts on human health are unknown, (3) the relationships between the pest species and their food sources, breeding and movements are not known, and (4) the situation in Papua New Guinea may represent an emergent crisis that warrants further investigation. In addition, there is a need for greater understanding of the invasive history of pest rodents, so as to integrate biological information with management strategies. Ecologically based rodent management can be achieved on Pacific Islands, but only after significant well funded large-scale projects are established and rodent ecologists are trained. We can learn from experiences from other locations such as Southeast Asia to guide the way.