A modelling approach to estimate the effect of exotic pollinators on exotic weed population dynamics: bumblebees and broom in Australia

The role of mutualisms in contributing to species invasions is rarely considered, inhibiting effective risk analysis and management options. Potential ecological consequences of invasion of non-native pollinators include increased pollination and seed set of invasive plants, with subsequent impacts on population growth rates and rates of spread. We outline a quantitative approach for evaluating the impact of a proposed introduction of an invasive pollinator on existing weed population dynamics and demonstrate the use of this approach on a relatively data-rich case study: the impacts on Cytisus scoparius (Scotch broom) from proposed introduction of Bombus terrestris. Three models have been used to assess population growth (matrix model), spread speed (integrodifference equation), and equilibrium occupancy (lattice model) for C. scoparius. We use available demographic data for an Australian population to parameterize two of these models. Increased seed set due to more efficient pollination resulted in a higher population growth rate in the density-independent matrix model, whereas simulations of enhanced pollination scenarios had a negligible effect on equilibrium weed occupancy in the lattice model. This is attributed to strong microsite limitation of recruitment in invasive C. scoparius populations observed in Australia and incorporated in the lattice model. A lack of information regarding secondary ant dispersal of C. scoparius prevents us from parameterizing the integrodifference equation model for Australia, but studies of invasive populations in California suggest that spread speed will also increase with higher seed set. For microsite-limited C. scoparius populations, increased seed set has minimal effects on equilibrium site occupancy. However, for density-independent rapidly invading populations, increased seed set is likely to lead to higher growth rates and spread speeds. The impacts of introduced pollinators on native flora and fauna and the potential for promoting range expansion in pollinator-limited 'sleeper weeds' also remain substantial risks.

Análisis virológico y epidemiológico del síndrome de despoblamiento de las colmenas en España: estudio de causas y consecuencias

La abeja de la miel Apis mellifera es la principal especie polinizadora empleada por el hombre para aumentar la productividad de los cultivos, y además desempeña una importante función en el mantenimiento de la biodiversidad en todo el mundo. En las últimas décadas, se ha apreciado un incremento de la mortalidad de las colonias de abejas en numerosas regiones, lo que ha llevado a generar una gran alarma debido a sus potenciales repercusiones económicas y medioambientales. Este fenómeno, caracterizado por no tener una causa conocida, se ha clasificado principalemente en “Síndrome de Despoblamiento de las Colmenas” (SDC), cuando presenta una sintomatología concreta de despoblamiento de abejas adultas, o simplemente “mortalidad invernal”, cuando las colmenas no superan el invierno por causas no identificadas. Estas pérdidas se han observado también en España, el país con mayor censo de colmenas de la Unión Europea e importante productor de miel. Esta situación ha generado la necesidad de estudiar las causas de tales pérdidas. Actualmente se considera que no existe una causa única que explique esta mortalidad sino que, por el contrario, se trata de un fenómeno en el que la interacción de varios factores afecta a las colonias. Entre estos factores considerados ‘de riesgo’ destacan la mala nutrición y la escasez de recursos, la climatología adversa y el cambio climático, la exposición a pesticidas neonicotinoides empleados en los cultivos donde pecorean las abejas, la presencia de depredadores naturales y especies invasoras y la acción de los patógenos presentes en las colmenas. Entre los patógenos que pueden afectar a la abejas, destacan los virus porque a pesar de conocerse su amplia distribución y prevalencia en las colmenas y haber sido asociados con eventos de mortalidad de colonias de abejas, aún son muchos los interrogantes sobre su patogenia, cómo se ven afectados por otros factores y cómo son capaces de alterar el equilibrio con el hospedador produciendo estados patológicos...

Monitorización de los principales patógenos de las abejas para la detección de alertas y riesgos sanitarios

Las abejas, principalmente la especie Apis mellifera, desarrollan una función biológica muy importante puesto que se encargan de polinizar diversos cultivos agrícolas y la flora silvestre de todo el mundo. No obstante, existen numerosos factores que influyen en el estado sanitario de las colonias de abejas y presentan además un alto grado de interacciones entre ellos. Algunos de los potenciales riesgos para la apicultura española ya han sido identificados, como por ejemplo las dos especies de microsporidios, Nosema apis y N. ceranae, que actúan como parásitos intracelulares obligados o los ectoparásitos Varroa destructor, Acarapis woodi o Braula coeca; así como numerosos virus capaces de infectar a Apis melífera, de los cuales los principales son el virus de las alas deformadas (DWV), el virus de las realeras negras (BQCV), el virus Kashmir (KBV), el virus de la parálisis aguda (ABPV) y su variante israelí (IAPV). Otras enfermedades que afectan fundamentalmente a la cría de abejas son la loque americana y la loque europea, ambas de origen bacteriano (Paenibacillus larvae y Melissococcus plutonius respectivamente), así como la ascosferosis causada por el hongo Ascosphaera apis. Otro riesgo potencial para las abejas es la posible entrada de agentes exóticos como el coleóptero Aethina tumida o el ácaro Tropilaelaps clareae cuya presencia en Europa debe ser declarada según la OIE (2015). Recientemente se ha incluido a los neogregarinos y tripanosomátidos como posibles agentes patógenos. Actualmente, N. ceranae junto con V. destructor son los principales agentes patógenos que producen problemas sanitarios de las colonias de abejas en Europa. Además, se considera que los patógenos podrían jugar un papel primordial en el incremento de mortalidad de las abejas detectado en distintos países durante los últimos años...

Transcriptome analysis of the synganglion from the honey bee mite, Varroa destructor and RNAi knockdown of neural peptide targets

Date of Acceptance: 20/12/2015 This work was funded by BBSRC-LINK grant # BB/J01009X/1 and Vita Europe Ltd. We are grateful to the Scottish Beekeepers Association, especially Mr Phil McAnespie in supporting this work at its inception. We acknowledge partial funding from a Genesis Faraday SPARK Award, part of a Scottish Government SEEKIT project for the early part of this work. We are grateful to Prof David Evans for his advice on Varroa destructor viruses.

Widespread exploitation of the honeybee by early Neolithic farmers

The pressures on honeybee (Apis mellifera) populations, resulting from threats by modern pesticides, parasites, predators and diseases, have raised awareness of the economic importance and critical role this insect plays in agricultural societies across the globe. However, the association of humans with A. mellifera predates post-industrial-revolution agriculture, as evidenced by the widespread presence of ancient Egyptian bee iconography dating to the Old Kingdom (approximately 2400 bc)1. There are also indications of Stone Age people harvesting bee products; for example, honey hunting is interpreted from rock art2 in a prehistoric Holocene context and a beeswax find in a pre-agriculturalist site3. However, when and where the regular association of A. mellifera with agriculturalists emerged is unknown4. One of the major products of A. mellifera is beeswax, which is composed of a complex suite of lipids including n-alkanes, n-alkanoic acids and fatty acyl wax esters. The composition is highly constant as it is determined genetically through the insect’s biochemistry. Thus, the chemical ‘fingerprint’ of beeswax provides a reliable basis for detecting this commodity in organic residues preserved at archaeological sites, which we now use to trace the exploitation by humans of A. mellifera temporally and spatially. Here we present secure identifications of beeswax in lipid residues preserved in pottery vessels of Neolithic Old World farmers. The geographical range of bee product exploitation is traced in Neolithic Europe, the Near East and North Africa, providing the palaeoecological range of honeybees during prehistory. Temporally, we demonstrate that bee products were exploited continuously, and probably extensively in some regions, at least from the seventh millennium cal bc, likely fulfilling a variety of technological and cultural functions. The close association of A. mellifera with Neolithic farming communities dates to the early onset of agriculture and may provide evidence for the beginnings of a domestication process.

Superinfection exclusion and the long-term survival of honey bees in Varroa-infested colonies

Over the past 50 years, many millions of European honey bee (Apis mellifera) colonies have died as the ectoparasitic mite, Varroa destructor, has spread around the world. Subsequent studies have indicated that the mite’s association with a group of RNA viral pathogens (Deformed Wing Virus, DWV) correlates with colony death. Here, we propose a phenomenon known as superinfection exclusion that provides an explanation of how certain A. mellifera populations have survived, despite Varroa infestation and high DWV loads. Next-generation sequencing has shown that a non-lethal DWV variant ‘type B’ has become established in these colonies and that the lethal ‘type A’ DWV variant fails to persist in the bee population. We propose that this novel stable host-pathogen relationship prevents the accumulation of lethal variants, suggesting that this interaction could be exploited for the development of an effective treatment that minimises colony losses in the future.

Superinfection exclusion and the long-term survival of honey bees in Varroa-infested colonies

Over the past 50 years, many millions of European honey bee (Apis mellifera) colonies have died as the ectoparasitic mite, Varroa destructor, has spread around the world. Subsequent studies have indicated that the mite’s association with a group of RNA viral pathogens (Deformed Wing Virus, DWV) correlates with colony death. Here, we propose a phenomenon known as superinfection exclusion that provides an explanation of how certain A. mellifera populations have survived, despite Varroa infestation and high DWV loads. Next-generation sequencing has shown that a non-lethal DWV variant ‘type B’ has become established in these colonies and that the lethal ‘type A’ DWV variant fails to persist in the bee population. We propose that this novel stable host-pathogen relationship prevents the accumulation of lethal variants, suggesting that this interaction could be exploited for the development of an effective treatment that minimises colony losses in the future.

Evaluación del uso de diferentes concentraciones de Acaricida Comercial en el control de Varroa (Varroa destructor), en apiario infestado

En nuestro país la explotación de la abeja Apis mellifera, se ve afectada por un gran número de enfermedades y plagas. En la actualidad la enfermedad que mayormente afecta a los apicultores es el acaro varroa (Varroa destructor ), que es un parásito externo. Por lo que se hace necesario buscar métodos alternos para el control de esta; como la utilización de productos químicos y naturales. En esta investigación la principal finalidad es comprobar, la efectividad del producto químico acaricida Amitraz, en diferentes dosificaciones: 1cc de Amitraz por 750 ml de agua, 2cc de Amitraz por 750 ml de agua, 3 cc de Amitraz por 750 ml de agua; a excepción de un tratamiento que no poseía ninguna dosis. La investigación se realizó en un apiario ubicado en el cantón el Paraisal Jurisdicción del municipio de Jucuapa Departamento de Usulután. Propiedad del Sr. Hansy Gregorio Gómez Díaz, Se evaluaron cuatro tratamientos: T0 sin ninguna aplicación de Amitraz T1 1cc de Amitraz, T2 2cc de Amitraz, T3 3cc de Amitraz. Todas las dosificaciones fueron diluidas en 750 ml de agua; el diseño estadístico que se utilizó fue un bloque completamente al azar con 5 repeticiones por tratamiento las variables evaluadas fueron: Porcentaje de infestación y eficiencia del producto Amitraz (número de ácaros muertos)

Purification and characterization of the biological effects of phospholipase A(2) from sea anemone Bunodosoma caissarum

Sea anemones contain a variety of biologically active substances. Bunodosoma caissarum is a sea anemone from the Cnidaria phylum, found only in Brazilian coastal waters. The aim of the present work was to study the biological effects of PLA(2) isolated from the sea anemone B. caissarum on the isolated perfused kidney, the arteriolar mesenteric bed and on insulin secretion. Specimens of B. caissarum were collected from the Sao Vicente Channel on the southern coast of the State of São Paulo, Brazil. Reverse phase HPLC analysis of the crude extract of B. caissarum detected three PLA(2) proteins (named BcPLA(2)1, BCPLA(2)2 and BcPLA(2)3) found to be active in B. caissarum extracts. MALDI-TOF mass spectrometry of BcPLA(2)1 showed one main peak at 14.7 kDa. The N-terminal amino acid sequence of BcPLA(2)1 showed high amino acid sequence identity with PLA(2) group III protein isolated from the Mexican lizard (PA23 HELSU, HELSU, PA22 HELSU) and with the honey bee Apis mellifera (PLA(2) and 1POC_A). In addition, BcPLA(2)1 also showed significant overall homology to bee PLA(2). The enzymatic activity induced by native BCPLA(2)1 (20 mu g/well) was reduced by chemical treatment with p-bromophenacyl bromide (p-BPB) and with morin. BcPLA(2)1 strongly induced insulin secretion in presence of high glucose concentration. In isolated kidney, the PLA(2) from B. caissarum increased the perfusion pressure, renal vascular resistance, urinary flow, glomerular filtration rate, and sodium, potassium and chloride levels of excretion. BcPLA(2)1, however, did not increase the perfusion pressure on the mesenteric vascular bed. In conclusion, PLA(2), a group III phospholipase isolated from the sea anemone B. caissarum, exerted effects on renal function and induced insulin secretion in conditions of high glucose concentration. (C) 2009 Elsevier Ltd. All rights reserved.

Inhibition of Neurotoxic Secretory Phospholipases A(2) Enzymatic, Edematogenic, and Myotoxic Activities by Harpalycin 2, an Isoflavone Isolated from Harpalyce brasiliana Benth

Secretory phospholipases A(2) (sPLA(2)) exert proinflammatory actions through lipid mediators. These enzymes have been found to be elevated in many inflammatory disorders such as rheumatoid arthritis, sepsis, and atherosclerosis. The aim of this study was to evaluate the effect of harpalycin 2 (Har2), an isoflavone isolated from Harpalyce brasiliana Benth., in the enzymatic, edematogenic, and myotoxic activities of sPLA2 from Bothrops pirajai, Crotalus durissus terrificus, Apis mellifera, and Naja naja venoms. Har2 inhibits all sPLA(2) tested. PrTX-III (B. pirajai venom) was inhibited at about 58.7%, Cdt F15 (C. d. terrificus venom) at 78.8%, Apis (from bee venom) at 87.7%, and Naja (N. naja venom) at 88.1%. Edema induced by exogenous sPLA(2) administration performed in mice paws showed significant inhibition by Har2 at the initial step. In addition, Har2 also inhibited the myotoxic activity of these sPLA(2)s. In order to understand how Har2 interacts with these enzymes, docking calculations were made, indicating that the residues His48 and Asp49 in the active site of these enzymes interacted powerfully with Har2 through hydrogen bonds. These data pointed to a possible anti-inflammatory activity of Har2 through sPLA(2) inhibition.

An expert model approach to assess the potential of non-wood forest products for forest owners

Mestrado em Engenharia Florestal e dos Recursos Naturais - Instituto Superior de Agronomia - UL

COMPOSITION OF FRESHLY HARVESTED BRAZILIAN ROYAL JELLY - IDENTIFICATION OF CARBOHYDRATES FROM THE SUGAR FRACTION

Samples of Brazilian royal jelly from Africanized Apis mellifera were analysed in order to determine the gross composition: crude moisture ranged from 67.80% to 69.40%, crude protein from 15.80% to 16.70%, crude lipid from 2.90% to 3.98% and-total sugars from 11.40% to 11.50%. The sugar fraction was investigated and revealed the presence of the following compounds identified by their retention time during HPLC analysis: ribose, fructose, glucose, sucrose, mannose, trehalose, erythritol, adonitol and mannitol.

Evaluation of floral characteristics of melon hybrids (Cucumis melo l.) in pollinator attractiveness.

Floral morphology and biology are important characteristics for plant-pollinator interactions and may influence the behavior of these agents. This study aimed to determine which floral attributes of different melon hybrids influence this interaction and, consequently, their attractiveness in simultaneous crops. The study was conducted in the region of Petrolina, State of Pernambuco (PE)/Juazeiro, State of Bahia (BA) and Mossoró, State of Rio Grande do Norte (RN), in areas with the following melon hybrids: Yellow type, Piel de Sapo, Cantaloupe and Galia. For studies on floral morphology and biology, hermaphrodites and male flowers of each hybrid were analyzed for their size and nectar chamber size, pollen and nectar production, anthesis time and flower lifespan. Floral visitors were observed simultaneously in hybrids of three types of melon, from 5:00 a.m. to 6:00 p.m., in the two study sites. Evaluations of the corolla diameter and flower height indicated that the hermaphrodite flowers were larger in size than male flowers in all types of melon investigated, in both study sites. As for nectar chamber, male flowers are larger in width, but smaller in height, compared to hermaphrodite flowers. Regarding the volume of nectar, differences were found between floral types for the hybrids evaluated, in the two study sites; the hermaphrodite flowers produced 2-7 times more nectar than male flowers in all studied hybrids. Observations of visits of Apis mellifera to areas with simultaneous flowering of the three types of melon demonstrated differences in the frequency of visits between hybrids, floral type and foraged resource. Flowers of the hybrids Piel de Sapo and Cantaloupe exhibited larger corolla diameter, larger dimensions of the nectar chamber and greater supply of resources for foraging, which could explain the higher number of visits of bees to their flowers in the sites studied.

Avaliação do serviço de polinização da abelha mandaçaia melipona quadrifasciata em macieiras.

O cultivo de macieira é uma atividade dependente da polinização cruzada para frutificação e, para tanto, da ação de visitantes florais para a transferência de pólen entre cultivares compatíveis (SALOMÉ; ORTH, 2014). O sucesso da polinização depende de uma série de fatores, entre os quais a eficiência do agente polinizador. A abelha Apis mellifera é a espécie mais comumente encontrada sobre flores de macieira. No entanto, não é a única espécie a realizar o serviço de polinização nos pomares. Segundo Lourdes et al. (1996) existe uma grande diversidade de espécies nativas de abelhas no interior de pomares de macieiras, as quais participam ativamente na polinização. A ação de polinizadores nativos é vista como complementar a realizada por A. mellifera (WITTER et al., 2014), e a descoberta de espécies potenciais para este fim é uma necessidade da pesquisa. Segundo Witter et al. (2014), a preocupação com o desparecimento de polinizadores pelo mundo, gerou inúmeros questionamentos sobre a dependência de uma única espécie de polinizador na agricultura. Embora escassas as informações sobre a utilização de abelhas sem ferrão em polinização de cultivos de importância econômica, há evidências do sucesso da ação de espécies nativas na 21 polinização de algumas culturas agrícolas. Por exemplo, a utilização da abelha mandaçaia Melipona quadrifasciata na polinização de cultivos de tomates possibilitou incremento no número de frutos por planta e melhora na qualidade dos frutos (SANTOS et al., 2009). Em macieira, uma alternativa seria o uso conjunto de abelhas nativas e africanizadas em serviços de polinização. De acordo com Viana et al. (2014) a introdução de colmeias de Melipona quadrifasciata anthidioides juntamente 26 com as de A. mellifera incrementou o número de sementes por fruto e a produção de frutos de macieira. Como a abelha mandaçaia Melipona quadrifasciata quadrifasciata apresenta maior atividade externa em horários de temperaturas mais baixas e de umidades relativas altas (GUIBU; IMPERATRIZ-FONSECA, 1984), diferentes aos apresentados por A. mellifera em macieira (SANTOS et al., 2013), pode haver menor competição entres as espécies pelo recurso floral, o que pode permitir ganhos na polinização de macieiras. Assim, objetivou-se avaliar a ação exclusiva da abelha mandaçaia M. quadrifasciata quadrifasciata na frutificação efetiva de macieiras cultivares Gala Baigent e Fuji Suprema.