Your search keyword '"Maureen Murúa"' showing total 14 results

1. This flower is our bed: long-term citizen science reveals that hummingbird flies use flowers with certain shapes as sleeping places

Author

Rodrigo M. Barahona-Segovia, Vanessa Durán-Sanzana, and Maureen Murúa

Subjects

Ecology, Insect Science, Agronomy and Crop Science, Ecology, Evolution, Behavior and Systematics

Published

2022

2. Invasion dynamics of the European bumblebee Bombus terrestris in the southern part of South America

Author

Lorena Vieli, Francisco E. Fontúrbel, and Maureen Murúa

Subjects

0106 biological sciences, Climate, Science, Niche, Biodiversity, Argentina, 010603 evolutionary biology, 01 natural sciences, Invasive species, Article, Pollinator, Animals, Community ecology, Chile, Pollination, Bumblebee, Ecosystem, Multidisciplinary, biology, Ecology, 010604 marine biology & hydrobiology, Bees, biology.organism_classification, Geography, Habitat, Bombus terrestris, South american, Medicine, Introduced Species

Abstract

Invasive species are one of the main biodiversity loss drivers. Some species can establish and thrive in novel habitats, impacting local communities, as is the case of managed pollinators. In this regard, an invasive species' expansion process over time is critical for its control and management. A good example is the European bumblebee Bombus terrestris, which has rapidly invaded the southern part of South America after being repeatedly introduced in Chile for crop pollination since 1997. We assessed the temporal dynamics of B. terrestris invasion in Argentina and Chile by compiling 562 occurrence points from 2000 to 2019. We used two estimators (minimum convex polygon and 95% fixed kernel) to estimate the increase of the invaded area over time. We found that the area invaded by B. terrestris in the southern part of South America presents a linear increase over time, which was consistent for both estimators. In this scenario, species traits, environmental characteristics, and introduction dynamics facilitate a rapid invasion process that will continue to expand, reaching other South American countries in the near future. As this bumblebee is a super-generalist, it probably will expand across South America, as climate niche modelling predicts, if no actions were taken.

Published

2021

3. Local Actions to Tackle a Global Problem: A Multidimensional Assessment of the Pollination Crisis in Chile

Author

Luis Flores-Prado, Giselle Muschett, Christian Jofré-Pérez, Gastón O. Carvallo, Lorena Vieli, Constanza Andía, Manuel López-Aliste, Francisco E. Fontúrbel, Maureen Murúa, and Carlos E. Valdivia

Subjects

Ecology, Pollination, Intensive farming, Agroforestry, QH301-705.5, Ecological Modeling, Biodiversity, conservation, Context (language use), Agricultural and Biological Sciences (miscellaneous), invasive species, land-use change, Habitat destruction, Geography, climate change, Habitat, Conservation status, Land use, land-use change and forestry, Chile, managed pollinators, Biology (General), Nature and Landscape Conservation

Abstract

In the last decades, pollinators have drastically declined as a consequence of anthropogenic activities that have local and global impacts. The food industry has been expanding intensive agriculture crops, many of them dependent on animal pollination, but simultaneously reducing native pollinator habitats. Chile is a good example of this situation. Chile is becoming an agro-alimentary powerhouse in Latin America, where intensive agriculture expansion is performed at the expense of natural lands, posing a major threat to biodiversity. Here, we discussed the drivers responsible for the decline of pollinators (including habitat loss, pesticides, invasive species, and climate change) and its synergistic effects. This is particularly critical considering that Chile is a hotspot of endemic bee species locally adapted to specific habitats (e.g., Mediterranean-type ecosystems). However, there is a lack of data and monitoring programs that can provide evidence of their conservation status and contribution to crop yields. Based on our analysis, we identified information gaps to be filled and key threats to be addressed to reconcile crop production and biodiversity conservation. Addressing the local context is fundamental to undertake management and conservation actions with global impact.

Published

2021

4. Is the same pollinator species equally effective in different populations of the generalist herb Alstroemeria ligtu var. simsii?

Author

María José Ramírez, Maureen Murúa, and Alejandra V. González

Subjects

Ecology, Plant Science, Horticulture, Biology

Abstract

RESUMEN En esta investigación estimamos la efectividad de polinización en tres poblaciones de Alstroemeria ligtu. Los resultados muestran que Lasia es el género de polinizador más frecuente, cuya efectividad varía entre poblaciones. Proponemos que la efectividad de polinización puede responder a condiciones locales que varían en el rango de distribución de la planta y sus polinizadores.

Published

2019

5. Contrasting floral morphology and breeding systems in two subspecies of Calceolaria corymbosa in Central Chile

Author

Janinna Cisterna and Maureen Murúa

Subjects

Ecology, Calceolaria corymbosa, Botany, Plant Science, Horticulture, Biology, Subspecies

Abstract

RESUMEN En este estudio se caracterizó la morfología floral y se evaluaron aspectos básicos de la biología reproductiva en dos subespecies de Calceolaria corymbosa en Chile central. Nuestros resultados muestran que los rasgos de atracción de polinizadores fueron similares entre subespecies. No obstante, rasgos relacionados con la reproducción (e.g., hercogamia) podrían explicar las diferencias entre ellas. Adicionalmente, ambas subespecies mostraron diferentes estrategias reproductivas, donde C. corymbosa ssp. mimuloides fue una especie alógama, mientras que C. corymbosa ssp. santiaguina fue autocompatible y autogama parcial. En general, estos resultados sugieren que especies morfológicamente similares pueden presentar diferentes estrategias reproductivas posiblemente de acuerdo a su hábitat.

Published

2018

6. Floral Patches and Their Impact on Pollinator Attraction and Yield Production on Cucurbita maxima Var. Paine in Central Chile

Author

Santiago Donoso and Maureen Murúa

Subjects

pollination, Pollination, QH301-705.5, Biodiversity, Biology, Crop, Pollinator, Ornamental plant, Biology (General), biodiversity, Nature and Landscape Conservation, Ecology, business.industry, Ecological Modeling, Crop yield, fungi, food and beverages, food security, biology.organism_classification, Agricultural and Biological Sciences (miscellaneous), Cucurbitaceae, Agronomy, Agriculture, crop system, business, Cucurbita maxima

Abstract

In recent decades, it has been shown that pollination deficit can significantly affect crop production. Moreover, now it is known that the appropriate management of pollination can increase the quantity and quality of yields. Therefore, pollination appears to be a key component in modern agriculture. This study aimed to determine the impact of floral patch addition on the quality and quantity of Cucurbita maxima fruit production. To this end, we manually added a set of ornamental plant species to the edge of the crop and monitored the pollinator diversity and visit frequency, as well as the seed set and sugar content of the pumpkin yield, in treatment and control parcels. The results showed that there was a higher visit rate in the treated parcel. Only the sugar content, and not the seed set, was affected by the addition of ornamental species and the pollinator visit rate. These findings indicate that the addition of flowering plants can favor different components of the crop yield of this species, but future studies should sample on a broader spatial and temporal scale in order to certify the generalizability of our results.

Published

2021

7. Maintaining close canopy cover prevents the invasion of Pinus radiata: Basic ecology to manage native forest invasibility

Author

Persy Gómez, Ramiro O. Bustamante, José San Martín, Maureen Murúa, and Estefany Goncalves

Subjects

Canopy, Forest Ecology, Ecological Metrics, Seed dispersal, Science, Invasive Species, Plant Science, Forests, Invasive species, Ecosystems, Trees, Species Colonization, Deforestation, Forest ecology, Multidisciplinary, biology, Ecology, Pinus radiata, Plant Anatomy, Ecology and Environmental Sciences, Organisms, Biology and Life Sciences, Eukaryota, Species Diversity, Plants, biology.organism_classification, Terrestrial Environments, Geography, Disturbance (ecology), Seedlings, Seeds, Litter, Medicine, Pines, Research Article

Abstract

Pine invasion is a global threat that is occurring in native forests of diverse regions of the world. This process is arising in a scenario of rapid forest deforestation and degradation. Therefore, elucidate which forests attributes explain invasibility is a central issue in forest ecology. The Coastal Maulino forest is an endemic forest of central Chile, which has suffered a large history of disturbance, being replaced by large extensions of Pinus radiata plantations. This land transformation conveys high rates of pines invasion into native remnants. In this study we examined to what extent structural features of forest patches explains invasibility of this forest-type. Within eight forest fragments, we sampled 162 plots (10 x 10 m2 each). We quantified seedling pine density and related these estimates with tree cover, litter depth, PAR radiation, and diversity of the resident community. Our results indicate that canopy cover was the most important variable to determine seedling pine density within forest fragments. Our investigation highlights the importance to conserve the forests cover to reduce significantly their invasibility. This action can be effective even if we cannot avoid pine plantations in the region as a source of a massive seed dispersal to forests with well conserved canopy.

Published

2019

8. Self-Compatibility Not Associated with Morphological or Genetic Diversity Reduction in Oil-Rewarding Calceolaria Species

Author

Maureen Murúa, Anahí Espíndola, and Fernanda Pérez

Subjects

0106 biological sciences, 0301 basic medicine, Outcrossing, Plant Science, Biology, floral morphology, self-incompatibility, 010603 evolutionary biology, 01 natural sciences, Plant reproduction, 03 medical and health sciences, Calceolaria, Pollinator, Chile, Allele, Ecology, Evolution, Behavior and Systematics, Genetic diversity, Ecology, fungi, Botany, food and beverages, Selfing, biology.organism_classification, 030104 developmental biology, Evolutionary biology, QK1-989, specialized pollination, plant reproduction, Inbreeding

Abstract

One of the most common evolutionary transitions in angiosperms is the reproductive change from outcrossing to selfing, commonly associated with changes in floral biology and genetic diversity. Here, we aim to test whether self-compatibility leads to a reduction of floral traits and genetic diversity. For this, we experimentally estimate levels of self-compatibility, measure three floral traits and estimate four genetic diversity parameters using nine microsatellites in nine Calceolaria species. Our analysis indicated that four of the study species were self-incompatible. In addition, we found that self-compatible species did not show a reduction in floral traits size, but rather displayed larger corolla and elaiophore areas. Our analyses of genetic diversity identified larger allele number and observed heterozygosity in selfers than in outcrossers, but did not find larger inbreeding in the self-compatible species. Even though our results contradict our expectations, in the case of Calceolaria, their high dependence on only two genera of oil-bees puts the genus in a vulnerable reproductive position, probably facilitating the evolution of reproductive assurance mechanisms in the absence of pollinators. As a result, plants maintain their pollinator attraction traits while evolving the ability to self, possibly in a delayed way.

Published

2020

9. Microevolutionary Effects of Habitat Fragmentation on Plant-Animal Interactions

Author

Maureen Murúa and Francisco E. Fontúrbel

Subjects

Habitat fragmentation, Habitat, Ecology, Local extinction, Threatened species, Biodiversity, Ocean Engineering, Biology

Abstract

Plant-animal interactions are a key component for biodiversity maintenance, but they are currently threatened by human activities. Habitat fragmentation might alter ecological interactions due to demographic changes, spatial discontinuities, and edge effects. Also, there are less evident effects of habitat fragmentation that potentially alter selective forces and compromise the fitness of the interacting species. Changes in the mutualistic and antagonistic interactions in fragmented habitats could significantly influence the plant reproductive output and the fauna assemblage associated with. Fragmented habitats may trigger contemporary evolution processes and open new evolutionary opportunities. Interacting parties with a diffuse and asymmetric relationship are less susceptible to local extinction but more prone to evolve towards new interactions or autonomy. However, highly specialized mutualisms are likely to disappear. On the other hand, ecological interactions may mutually modulate their response in fragmented habitats, especially when antagonistic interactions disrupt mutualistic ones. Ecoevolutionary issues of habitat fragmentation have been little explored, but the empiric evidence available suggests that the complex modification of ecological interactions in fragmented habitats might lead to nonanalogous communities on the long term.

Published

2014

10. Does plant origin influence the fitness impact of flower damage? A meta-analysis

Author

Maureen Murúa, Catalina González-Browne, Luis Navarro, and Rodrigo Medel

Subjects

0106 biological sciences, Genetic Fitness, lcsh:Medicine, Introduced species, Flowers, Biology, Genes, Plant, 010603 evolutionary biology, 01 natural sciences, Invasive species, Animals, Herbivory, Nectar robbing, lcsh:Science, Ecosystem, Herbivore, Multidisciplinary, Reproductive success, Ecology, Reproduction, lcsh:R, fungi, food and beverages, Plants, Native plant, Plant Leaves, lcsh:Q, Introduced Species, Plant tolerance to herbivory, Research Article, 010606 plant biology & botany

Abstract

Herbivory has been long considered an important component of plant-animal interactions that influences the success of invasive species in novel habitats. One of the most important hypotheses linking herbivory and invasion processes is the enemy-release hypothesis, in which exotic plants are hypothesized to suffer less herbivory and fitness-costs in their novel ranges as they leave behind their enemies in the original range. Most evidence, however, comes from studies on leaf herbivory, and the importance of flower herbivory for the invasion process remains largely unknown. Here we present the results of a meta-analysis of the impact of flower herbivory on plant reproductive success, using as moderators the type of damage caused by floral herbivores and the residence status of the plant species. We found 51 papers that fulfilled our criteria. We also included 60 records from unpublished data of the laboratory, gathering a total of 143 case studies. The effects of florivory and nectar robbing were both negative on plant fitness. The methodology employed in studies of flower herbivory influenced substantially the outcome of flower damage. Experiments using natural herbivory imposed a higher fitness cost than simulated herbivory, such as clipping and petal removal, indicating that studies using artificial herbivory as surrogates of natural herbivory underestimate the real fitness impact of flower herbivory. Although the fitness cost of floral herbivory was high both in native and exotic plant species, floral herbivores had a three-fold stronger fitness impact on exotic than native plants, contravening a critical element of the enemy-release hypothesis. Our results suggest a critical but largely unrecognized role of floral herbivores in preventing the spread of introduced species into newly colonized areas.

Published

2016

11. Does human-induced habitat transformation modify pollinator-mediated selection? A case study in Viola portalesia (Violaceae)

Author

Maureen Murúa, Ramiro O. Bustamante, Claudia Espinoza, Víctor H. Marín, and Rodrigo Medel

Subjects

Natural selection, Disruptive selection, biology, Pollination, Ecology, fungi, food and beverages, biology.organism_classification, Habitat destruction, Pollinator, Humans, Selection, Genetic, Adaptation, Ecosystem, Violaceae, Ecology, Evolution, Behavior and Systematics, Selection (genetic algorithm)

Abstract

Pollinator-mediated selection is one of the most important factors driving adaptation in flowering plants. However, as ecological conditions change through habitat loss and fragmentation, the interactions among species may evolve in new and unexpected directions. Human-induced environmental variation is likely to affect selection regimes, but as yet no empirical examples have been reported. In the study reported here, we examined the influence of human-induced habitat transformation on the composition of pollinator assemblages and, hence, pollinator-mediated selection on the flower phenotype of Viola portalesia (Violaceae). Our results indicate that pollinator assemblages differed substantially in terms of species composition and visitation rate between nearby native and transformed habitats. Similarly, the insect species that contributed most to visitation rates differed between plant populations. While the magnitude and sign of pollinator-mediated selection on flower length and width did not differ between sites, selection for flower number lost significance in the transformed habitat, and a significant pattern of disruptive selection for flower shape, undetected in the native habitat, was present in the transformed one. Overall, the results of this study suggest that human-induced habitat change may not only modify the species composition of pollinator assemblages, relaxing the selection process on some flower characters, but they may also create new opportunities for fitness-trait covariation not present in pristine conditions.

Published

2010

12. Temporal and spatial variation of the pollinator assemblages in Alstroemeria ligtu (Alstroemeriaceae)

Author

Maureen Murúa, Patricia A. Ramirez, and Alejandra V. González

Subjects

Abiotic component, Reproductive success, Range (biology), Ecology, Biodiversity, Biology, Subspecies, biology.organism_classification, Pollinator, Botany, Mantel test, General Agricultural and Biological Sciences, Alstroemeriaceae, General Environmental Science

Abstract

FindingsPlant-pollinator interactions have been seen as a co-adaptative process between pollinators and flowers (Johnsonand Steiner 2000). Even though specialized pollinatorsystems do exist, most plants are pollinated by a widespectrum of pollinators (Ollerton 1996; Waser et al. 1996).Accordantly, the degree of generalization in a plant-pollinator system may vary temporally and spatially in rela-tion to biotic or abiotic environment fluctuations (seeGomez and Perfectti 2009, for review). In general, spatialvariation has been invoked as the most important factor inthe maintenance of generalization (Herrera 1996; Fensteret al. 2004), and temporal variation has been underlooked(but see Williams et al. 2001; Gomez 2002). In the longrun, pollinator variation can be translated into inter-population variation in the degree of generalization, whichsubsequently can affect the reproductive success of plantspecies (Suarez et al. 2009; Botto-Mahan et al. 2011).Alstroemeria ligtu var. simsii Sprengel (Alstroemeriaceae)is a perennial herb endemic to central Chile (Munoz andMoreira 2003). A. ligtu simsii is a hermaphroditic self-incompatible subspecies that relies entirely on pollinatorsfor reproduction (Arroyo and Uslar 1993). The zygo-morphic flowers are 4 to 6 cm long and arranged in um-bels with one to four flowers each. The flowers consistof four red tepals, two distinctive yellow tepals streakedwith brownish lines (Figure 1A). The flowering seasonextends from November to January, following by thefruiting season that ends in February (Arroyo and Uslar1993; Botto-Mahan et al. 2011).The study was carried out during two austral spring sea-sons (2011 and 2012), in six populations that comprisemost of the distributional range of A. ligtu simsii fromcentral Chile (Figure 1B). The region is characterized by aMediterranean-type climate (di Castri and Hajek 1976),where populations were exposed to similar variation oftemperature and precipitation (considering maximum andminimum of both abiotic variables in the warmest,coldest, wettest, and driest months), which did not dif-fer significantly among them (temperature: F

Published

2014

13. Floral integration and pollinator diversity in the generalized plant-pollinator system of Alstroemeria ligtu (Alstroemeriaceae)

Author

Maureen Murúa, Alejandra V. González, and Fernanda Pérez

Subjects

Abiotic component, Natural selection, Pollination, biology, Pollinator, Geographical distance, Animal ecology, Ecology, Species distribution, biology.organism_classification, Alstroemeriaceae, Ecology, Evolution, Behavior and Systematics

Abstract

Floral integration may result from the combined effects of pollinator-mediated selection, genetic correlations and abiotic factors. Thus, by sampling a set of populations in the field and examining their variation of floral correlations in relation to pollinators and abiotic factors, we intended to shed light on the ecological factors underlying the evolution of floral integration. In this study, floral integration patterns and the composition of pollinator assemblage were characterized across ten populations of Alstroemeria ligtu to test the following: (1) Whether the patterns of floral integration estimated at population level covary with the composition of local pollinator assemblage, climate and/or geographic distance. (2) Whether the magnitude of floral integration decreases with the number or the morphological variability of pollinators. (3) Whether the behavior of the three most widespread pollinators is affected by floral integration. Our results indicated that populations with similar patterns of integration showed greater similitude in pollinator assemblages, but that this was not related to climate or geographic distance. We also found that the most widespread pollinator, Centris nigerrima, invested lower handling time in populations with higher levels of floral integration. The magnitude of floral integration was not related to taxonomical diversity, yet, unexpectedly, correlated positively with the variability of pollinator proboscis length. We suggest that variation in the magnitude and pattern of floral integration across the species range was related to the composition of pollinator assemblage, and not to pollinator diversity per se, nor to climatic variables. A. ligtu was visited by numerous pollinators, but floral integration patterns are likely shaped by only a subset of them, such as C. nigerrima, which is sensitive to variations in floral architecture.

Published

2014

14. Testing non-additive effects of nectar-robbing ants and hummingbird pollination on the reproductive success of a parasitic plant

Author

Catalina González-Browne, Paula P. Caballero, Wilfredo L. Gonzáles, Maureen Murúa, Carmen G. Ossa, Guadalupe Astorga, and Rodrigo Medel

Subjects

Ecology, biology, Tristerix, Pollination, Reproductive success, Fruit set, Flower damage, Sephanoides, Germination, Plant Science, biology.organism_classification, Mistletoe, Indirect effects, Pollinator, biology.animal, Botany, Firecrown, Nectar, Hummingbird, Nectar robbing, Chile, purl.org/pe-repo/ocde/ford#1.06.10 [https]

Abstract

Nectar robbing may have an indirect negative effect on plant reproduction by discouraging legitimate pollinator species from visiting robbed flowers. In this study, we set up a 2 × 2 factorial design with nectar-robbing ants and hummingbird pollination to test for non-additive effects on fruit set, seed mass, and seed germination of the leafless mistletoe Tristerix aphyllus (Loranthaceae). Even though ants caused conspicuous damage at the base of the floral tubes, nectar availability was reduced by only 8 % in the presence of ants. The green-backed firecrown Sephanoides sephaniodes was insensitive to the presence of ants. Rather, the bird responded to flower number and the presence or the absence of damage, but not to the extent of damage within inflorescences. As hummingbirds were largely insensitive to variation in nectar robbing, the interaction ant × hummingbird had no effect on plant-reproductive success. Thus, the factorial experiment did not provide evidence for indirect negative effects of nectar robbing on plant reproduction. These results suggest that indirect effects of nectar robbers on pollinator behaviour may occur under a more restricted set of conditions than those previously considered. We suggest that the low amount of nectar removed by nectar-robbing ants was insufficient for hummingbirds to avoid robbed flowers, which restricted the potential for non-additive effects.

Published

2013