Herbaceous Filter Strips in Agroecosystems: Implications for Ground Beetle (Coleoptera: Carabidae) Conservation and Invertebrate Weed Seed Predation

A 9.3-ha crop field flanked by two filter strips was selected to: 1) assess carabid beetle activity-density and community composition and 2) assess post-dispersal weed seed predation by invertebrates in these habitats. Over- all during 1997 and 1998, 12,937 carabid beetles comprising 58 species were collected. Greater species richness and activity-density was observed in filter strips than in the field. A multivariate ordination revealed that year of capture and habitat were important variables conditioning carabid beetle com­munities. While two omnivorous species known to eat weed seeds [Harpalus erraticus (Say), Anisodactylus sanctaecrucis (F.)] dominated the 1997 captures, two carnivorous [Pterostichus melanarius (Ill), Pterostichus permundus (Say)] were predominant in 1998. Two omnivorous species, Harpalus pensylvanicus (DeG) and H. erraticus, were primarily captured in filter strips. Weed seed removal was greater in filter strips than in the field. This study shows that habitat management represents a feasible approach to con­serve beneficial organisms in farmlands

Consideraciones ecológicas para el desarrollo de programas de manejo integrado de malezas

During the last 60 years, weed management has focused in achieving the goal of eradication of all undesired species, mainly through the use of herbicides. Recently, this approach to weed management has been highly criticized due to its high environmental, social, and economic costs. In response to these objections, there is a growing consensus on the need of developing alternative weed management programs based not only on understanding the factors that condition weed abundance and impact, but the ecological and social consequences of such programs. In this context, integrated weed management can be defined as a decision-making process that coordinates different technological approaches with environmental information and knowledge on weed and crop biology and ecology. This article explores the ecological principles associated with the integrated management of agricultural weeds and discusses the factors that limit the adoption of such programs. Agroecology can contribute to the development of integrated weed management programs if it adopts a holistic perspective on the analysis of the mechanisms determining the abundance, dispersion, and impact of agricultural weeds. Such knowledge should be integrated with educational programs on ecological approaches to weed management that take into account the need and knowledge of the targeted audience.En los últimos 60 años, el manejo de las malezas se ha abocado a la erradicación de las especies no deseadas, principalmente mediante el uso de herbicidas. Recientemente, esta aproximación al manejo de las malezas ha sido altamente criticada por su costo ambiental, social, y económico. En respuesta a dichas objeciones, se ha generado un consenso sobre la necesidad de desarrollar programas alternativos de manejo basados no sólo en el conocimiento de los factores que con- dicionan la abundancia e impacto de las malezas, sino también en las consecuencias ecológicas y sociales de dichas prácticas. En este contexto, el manejo integrado de malezas puede ser definido como un proceso de toma de decisiones que coordina diferentes aproximaciones tecnológicas con información ambiental y conocimiento sobre la biología y ecología de las malezas y los culti- vos. Este artículo explora los principios ecológicos del manejo integrado de malezas y discute los factores que limitan la adopción de dichos programas. La agroecología puede contribuir al de- sarrollo de programas integrados de manejo si adopta una perspectiva holística de los mecanis- mos determinantes de la abundancia, dispersión, e impacto de las malezas. Dicho conocimiento debe ser integrado con programas educativos del manejo ecológico de las malezas que tomen en cuenta las necesidades y el conocimiento de los productores agrícolas

Herbaceous Filter Strips in Agroecosystems: Implications for Ground Beetle (Coleoptera: Carabidae) Conservation and Invertebrate Weed Seed Predation

A 9.3-ha crop field flanked by two filter strips was selected to: 1) assess carabid beetle activity-density and community composition and 2) assess post-dispersal weed seed predation by invertebrates in these habitats. Over- all during 1997 and 1998, 12,937 carabid beetles comprising 58 species were collected. Greater species richness and activity-density was observed in filter strips than in the field. A multivariate ordination revealed that year of capture and habitat were important variables conditioning carabid beetle com­munities. While two omnivorous species known to eat weed seeds [Harpalus erraticus (Say), Anisodactylus sanctaecrucis (F.)] dominated the 1997 captures, two carnivorous [Pterostichus melanarius (Ill), Pterostichus permundus (Say)] were predominant in 1998. Two omnivorous species, Harpalus pensylvanicus (DeG) and H. erraticus, were primarily captured in filter strips. Weed seed removal was greater in filter strips than in the field. This study shows that habitat management represents a feasible approach to con­serve beneficial organisms in farmlands

Comprehensive behavioral testing in the R6/2 mouse model of Huntington's disease shows no benefit from CoQ10 or minocycline

Previous studies of the effects of coenzyme Q10 and minocycline on mouse models of Huntington’s disease have produced conflicting results regarding their efficacy in behavioral tests. Using our recently published best practices for husbandry and testing for mouse models of Huntington’s disease, we report that neither coenzyme Q10 nor minocycline had significant beneficial effects on measures of motor function, general health (open field, rotarod, grip strength, rearing-climbing, body weight and survival) in the R6/2 mouse model. The higher doses of minocycline, on the contrary, reduced survival. We were thus unable to confirm the previously reported benefits for these two drugs, and we discuss potential reasons for these discrepancies, such as the effects of husbandry and nutrition

Biomass distribution among tropical tree species grown under\ud differing regional climates

In the Neotropics, there is a growing interest in establishing plantations of native tree species for commerce, local consumption, and to replant on abandoned agricultural lands. Although numerous trial plantations have been established, comparative information on the performance of native trees under different regional environments is generally lacking. In this study, we evaluated the accumulation and partitioning of above-ground biomass in 16 native and two exotic tree species growing in replicated species selection trials in Panama under humid and dry regional environments. Seven of the 18 species accumulated greater total biomass at the humid site than at the dry site over a two-year period. Species specific biomass partitioning among leaves, branches and trunks was observed. However, awide range of total biomass found among species (from 1.06 kg for Dipteryx panamensis to 29.84 kg for Acacia mangium at Soberania) justified the used of an Aitchison log ratio transformation to adjust for size. When biomass partitioning was adjusted for size, a majority of these differences proved to be a result of the ability of the tree to support biomass components rather than the result of differences in the regional environments at the two sites. These findings were confirmed by comparative ANCOVAs on Aitchison-transformed and non-Aitchison-transformed variables. In these comparisons, basal diameter, height and diameter at breast height were robust predictors of biomass for the pooled data from both sites, but Aitchison-transformed\ud variables had little predictive power

Evolutionary and ecological insights from herbicide‐resistant weeds: what have we learned about plant adaptation, and what is left to uncover?

Peer Reviewedhttps://deepblue.lib.umich.edu/bitstream/2027.42/149516/1/nph15723_am.pdfhttps://deepblue.lib.umich.edu/bitstream/2027.42/149516/2/nph15723.pd

Integrated genomics and proteomics define huntingtin CAG length-dependent networks in mice.

To gain insight into how mutant huntingtin (mHtt) CAG repeat length modifies Huntington's disease (HD) pathogenesis, we profiled mRNA in over 600 brain and peripheral tissue samples from HD knock-in mice with increasing CAG repeat lengths. We found repeat length-dependent transcriptional signatures to be prominent in the striatum, less so in cortex, and minimal in the liver. Coexpression network analyses revealed 13 striatal and 5 cortical modules that correlated highly with CAG length and age, and that were preserved in HD models and sometimes in patients. Top striatal modules implicated mHtt CAG length and age in graded impairment in the expression of identity genes for striatal medium spiny neurons and in dysregulation of cyclic AMP signaling, cell death and protocadherin genes. We used proteomics to confirm 790 genes and 5 striatal modules with CAG length-dependent dysregulation at the protein level, and validated 22 striatal module genes as modifiers of mHtt toxicities in vivo