Your search keyword '"Maranda, L."' showing total 7 results

1. The thermal ecology of burying beetles: temperature influences reproduction and daily activity in Nicrophorus marginatus.

Author

Keller, Maranda L., Howard, Daniel R., and Hall, Carrie L.

Subjects

*BURYING beetles, *POPULATION viability analysis, *CLIMATE change models, *GEOTHERMAL ecology, *ACTIVITIES of daily living, *BIOLOGICAL fitness, *ANIMAL clutches

Abstract

1. Understanding how organisms respond to thermal stress can help predict long‐term population viability under projected climate change models. Behavioural plasticity can mediate the impact of thermal stress; however, some behavioural modifications in response to novel environments act maladaptively and could implicate population persistence. 2. Burying beetles (Silphidae: Nicrophorus) have been found to modify traits related to individual fitness to be favourable in their perceived environments. To reproduce, breeding individuals of the nicrophorine genus work together to bury and prepare a suitable vertebrate carcass as food for their developing larvae. 3. Here, we explore how sustained temperature treatments influence traits that closely tie to individual fitness in Nicrophorus marginatus. We measure carcass handling, reproductive output, and activity levels in controlled and elevated temperature treatments. 4. At only 27.5 °C, we observed significantly reduced reproductive success rates, extended carcass handling time, and increased levels of activity when compared to the baseline temperature treatment of 26 °C. Additionally, at 26.5 °C, we document reduced brood size. 5. These findings indicate that slight incremental increases in temperature could have profound effects on burying beetle fitness when experienced for extended periods. [ABSTRACT FROM AUTHOR]

Published

2021

2. Accurate forest projections require long‐term wood decay experiments because plant trait effects change through time.

Author

Oberle, Brad, Lee, Marissa R., Myers, Jonathan A., Osazuwa‐Peters, Oyomoare L., Spasojevic, Marko J., Walton, Maranda L., Young, Darcy F., and Zanne, Amy E.

Subjects

WOOD decay, WOOD density, TEMPERATE forests, CARBON cycle

Abstract

Whether global change will drive changing forests from net carbon (C) sinks to sources relates to how quickly deadwood decomposes. Because complete wood mineralization takes years, most experiments focus on how traits, environments and decomposer communities interact as wood decay begins. Few experiments last long enough to test whether drivers change with decay rates through time, with unknown consequences for scaling short‐term results up to long‐term forest ecosystem projections. Using a 7 year experiment that captured complete mineralization among 21 temperate tree species, we demonstrate that trait effects fade with advancing decay. However, wood density and vessel diameter, which may influence permeability, control how decay rates change through time. Denser wood loses mass more slowly at first but more quickly with advancing decay, which resolves ambiguity about the after‐life consequences of this key plant functional trait by demonstrating that its effect on decay depends on experiment duration and sampling frequency. Only long‐term data and a time‐varying model yielded accurate predictions of both mass loss in a concurrent experiment and naturally recruited deadwood structure in a 32‐year‐old forest plot. Given the importance of forests in the carbon cycle, and the pivotal role for wood decay, accurate ecosystem projections are critical and they require experiments that go beyond enumerating potential mechanisms by identifying the temporal scale for their effects. [ABSTRACT FROM AUTHOR]

Published

2020

3. Iteratively coupled solution strategies for a four-field mixed finite element method for poroelasticity.

Author

Yi, Son‐Young and Bean, Maranda L.

Subjects

*POROELASTICITY, *FINITE element method, *DARCY'S law, *POROUS materials, *TECHNOLOGY convergence

Abstract

In this paper, we consider numerical algorithms for modeling of the time-dependent coupling between the fluid flow and deformation in elastic porous media. Here, we employ a four-field formulation which uses the total stress, displacement, flux, and pressure as its primary variables and satisfies Darcy's law and linear elasticity in mixed weak form. We present four different iteratively coupled methods, known as drained, undrained, fixed-strain, and fixed-stress splits, in which the diffusion operator is separated from the elasticity operator and the two subproblems are solved in a staggered way while ensuring convergence of the solution at each time step. A-priori convergence results for each iterative coupling which differs from those found when using a traditional two-field or three-field formulation are presented. We also present some numerical results to support the convergence estimates and to show the accuracy and efficiency of the algorithms. Copyright © 2016 John Wiley & Sons, Ltd. [ABSTRACT FROM AUTHOR]

Published

2017

4. Negative density dependence is stronger in resource-rich environments and diversifies communities when stronger for common but not rare species.

Author

LaManna, Joseph A., Walton, Maranda L., Turner, Benjamin L., Myers, Jonathan A., and Rejmanek, Marcel

Subjects

*DENSITY dependence (Ecology), *SPECIES diversity, *ENDANGERED species, *WOODY plants, *RESOURCE availability (Ecology)

Abstract

Conspecific negative density dependence is thought to maintain diversity by limiting abundances of common species. Yet the extent to which this mechanism can explain patterns of species diversity across environmental gradients is largely unknown. We examined density-dependent recruitment of seedlings and saplings and changes in local species diversity across a soil-resource gradient for 38 woody-plant species in a temperate forest. At both life stages, the strength of negative density dependence increased with resource availability, becoming relatively stronger for rare species during seedling recruitment, but stronger for common species during sapling recruitment. Moreover, negative density dependence appeared to reduce diversity when stronger for rare than common species, but increase diversity when stronger for common species. Our results suggest that negative density dependence is stronger in resource-rich environments and can either decrease or maintain diversity depending on its relative strength among common and rare species. [ABSTRACT FROM AUTHOR]

Published

2016

5. A deteriorating state of affairs: How endogenous and exogenous factors determine plant decay rates.

Author

Zanne, Amy E., Oberle, Brad, Dunham, Kevin M., Milo, Amy M., Walton, Maranda L., Young, Darcy F., and Bardgett, Richard

Subjects

PLANT nutrients, PLANT morphology, VEGETATION & climate, BIODEGRADATION, BIOGEOCHEMISTRY

Abstract

Woody plants store large quantities of carbon (C) and nutrients. As plants senesce and decay, these stores transfer to the soil or other organisms or are released to the atmosphere., Exogenous factors such as topographic position and microclimatic and edaphic conditions tied to locations affect decay rates; however, we know less about how exogenous relative to endogenous factors such as morphological, anatomical and chemical construction tied to plant species affect these rates, especially across different tissue types., We monitored stem, fine branch and leaf decay over 1 year in 'rot plots' distributed across four watersheds in ridge top and valley bottom habitats in a temperate deciduous oak-hickory forest at Tyson Research Center, MO, USA, in the Ozark Highlands for 21 species of woody plants that vary in their constructions., We found poor coordination across tissues in construction and decay, which likely reflects how functional constraints on living tissues influence recalcitrance to decay. Additionally, for all three tissues, species membership and construction were better predictors of decay than was location. Of the construction traits, chemical composition including total fibre, lignin, cellulose, hemicellulose and concentrations of multiple microelements were the best predictors of decay, although the strength of these relationships differed among tissues., Synthesis. We have long known that rates of biogeochemical cycling are influenced by exogenous factors, such as climatic and edaphic factors. Here, we show across plant tissues that endogenous factors, including species identity and tissue construction, can have stronger controls on rates of decay within our study system than do exogenous factors. However, it is likely that the relative strengths of these different controls change through time and among tissues. We predict that anatomical and morphological controls may be more important at early stages and exogenous factors may be more important at later stages of decay. [ABSTRACT FROM AUTHOR]

Published

2015

6. The role of head computed tomography in equine practice.

Author

Manso-Díaz, G., García-López, J. M., Maranda, L., and Taeymans, O.

Subjects

COMPUTED tomography, RADIOSCOPIC diagnosis, DIAGNOSIS, ABNORMALITIES in animals, HORSE health, HORSE diseases

Abstract

This retrospective study describes the computed tomography ( CT) findings in 59 horses presented with diseases of the head over 8 years that underwent CT examination of this region, including dental or sinonasal diseases ( Group A) (n = 42), osseous and/or articular diseases ( Group B) (n = 11) and soft tissue diseases ( Group C) (n = 6). For Group A, radiographic and CT findings comparison was possible. Computed tomography had higher sensitivity (100%) and specificity (96.7%) than radiography in diagnosing dental disease. Compared to CT, radiographic identification of sinus involvement was less sensitive, particularly for ventral conchal and sphenopalatine sinuses and presented an overall sensitivity of 43.5 and 16.7%, respectively. In Group B CT allowed identification of a higher number of bone fragments and fractures in the maxillary, lacrimal, sphenoidal, temporal and zygomatic bones not identified radiographically. Accurate identification of CT changes in the temporomandibular joint and temporohyoid articulation was also possible. Group C included both intra- and extra-cranial disease, retrobulbar masses being the most representative pathology (n = 3). In this group, CT was considered the gold standard for detection of periorbital diseases. We conclude that CT is an imaging technique with high diagnostic value for evaluating the equine head, yielding additional information over multiple radiographic views, which may alter the outcome of the case. Additionally, this paper reports several conditions not previously described using CT. [ABSTRACT FROM AUTHOR]

Published

2015

7. Serological evidence of Leptospira interrogans serovar Bratislava infection and its association with abortions in cattle in northern Spain.

Author

Atxaerandio, R., Aduriz, G., Ziluaga, I., Esteban, J. I., Maranda, L., and Mainar-Jaime, R. C.

Subjects

LEPTOSPIRA, LEPTOSPIROSIS in animals, BACTERIAL diseases in animals, CATTLE fertility, ABORTION in animals, DOMESTIC animal diseases

Abstract

A cross-sectional study was carried out in the Basque Country of Spain to determine the seroprevalence of 10 Leptospira serovars in a population of dairy cattle with poor fertility, and a case-control study was carried out in another northern area to investigate the role of Leptospira interrogans serovar Bratislava in abortions. L Bratislava was the most prevalent serovar in the cross-sectional study, with 25.4 per cent of the cows testing positive in the microagglutination test when a cut-off of 1:10 or higher was applied, followed by Leptospira Hardjo (8.2 per cent), Leptospira Pomona (7.7 per cent), Leptospira Autumnalis (0.7 per cent) and Leptospira Copenhageni (0.1 per cent). In the case-control study the seroprevalence of L Bratislava was significantly higher among the cows which had aborted when a titre of 1:300 or more was used as a cut-off (9.7 per cent v 3.4 per cent, P=0.008); 69 per cent of the L Bratisiava-infected cows that had aborted apparently aborted as a result of the infection. [ABSTRACT FROM AUTHOR]

Published

2005