Plantation Pasts, Plantation Futures: Resisting Zombie Water Infrastructures in Maui, Hawai\u27i

Sugar plantations have fundamentally shaped water use in Maui, Hawai’i for over 100 years, with tremendous resulting impacts on ecosystems and Native Hawaiian communities. In this paper, we build on literature on the plantationocene and the political lives of infrastructure to examine plantation irrigation infrastructure. We center Maui’s vast water conveyance ditch system as a means of understanding how infrastructure continues plantation logics into the present, considering both the physical ditches themselves as well as the laws and politics which support continued water extraction. We also consider infrastructural futures, highlighting ongoing efforts of communities seeking water justice via infrastructural control

Just Water Transitions at the End of Sugar in Maui, Hawai\u27i

In December 2016, Hawai‘i saw its last sugar harvest on a 36,000-acre plantation in Maui. In the preceding decades, Native Hawaiians had struggled to regain their water rights from a failing sugar industry that had dewatered the island\u27s streams for centuries. Now, with the end of sugar, Native Hawaiian and environmental groups are working to restore traditional practices and diversified agriculture—goals which hinge upon changing water management practices and rewatering Maui\u27s streams. In this paper we combine frameworks from the water justice literature with a just transitions framework typically applied to energy landscapes in order to examine ‘just water transitions’ in Maui. By synthesizing these frameworks, we show how water-based economic transitions can address the tradeoffs and reconfigurations of infrastructure and power required for a more just future. We examine three distinct visions of water management promoted by coalitions of actors in support of different types of agricultural production systems for the island. We argue that a just water transition – that is, a move toward a more culturally, politically, and ecologically just management of water – must engage with water-specific, place-specific, and historically grounded factors including the legacies of infrastructure, water laws, and powerful agricultural interests

Scaling up Payments for Watershed Services: Recommendations for Increasing Participation in Watershed Conservation Among Non-Industrial Private Forest Landowners in the Sebago Lake Watershed, Maine

Payments for Watershed Services (PWS) programs are receiving attention throughout the U.S. as a policy option to secure water quality in a cost effective manner. PWS programs face many challenges in implementation; prominent among them is designing a program that generates interest and participation among the suppliers of water quality, upstream private landowners. This report seeks to inform the development of a PWS program in Southeast Maine by examining the system of incentives needed to encourage private forest owners to adopt conservation best management practices that enhance water quality downstream. While focused on the Sebago Lake watershed, which provides drinking water for the Greater Portland area, this project approaches the localized study as a specific case to identify biophysical, institutional, economic and social factors that favor or limit the scaling up of PWS schemes. This analysis combines a systematic review of literature on landowner preferences to existing incentive programs, interviews with program administrators from PWS schemes throughout the U.S., and interviews with key stakeholders in Southeast Maine. This report provides a set of recommendations organized around: segmentation of landowners; targeting and positioning PWS programs; selecting attractive program attributes; and leveraging effective outreach channels and tactics. Key recommendations include: co-create program attributes with landowners; encourage peer to peer communication to build support and awareness; provide a portfolio of financial and non-financial incentives to increase interest; and partner with existing conservation organizations to add capabilities and resources.Master of ScienceNatural Resources and EnvironmentUniversity of Michiganhttp://deepblue.lib.umich.edu/bitstream/2027.42/90874/1/scaling_up_watershed_services_2012.pd

Anatomic brain asymmetry in vervet monkeys.

Asymmetry is a prominent feature of human brains with important functional consequences. Many asymmetric traits show population bias, but little is known about the genetic and environmental sources contributing to inter-individual variance. Anatomic asymmetry has been observed in Old World monkeys, but the evidence for the direction and extent of asymmetry is equivocal and only one study has estimated the genetic contributions to inter-individual variance. In this study we characterize a range of qualitative and quantitative asymmetry measures in structural brain MRIs acquired from an extended pedigree of Old World vervet monkeys (n = 357), and implement variance component methods to estimate the proportion of trait variance attributable to genetic and environmental sources. Four of six asymmetry measures show pedigree-level bias and one of the traits has a significant heritability estimate of about 30%. We also found that environmental variables more significantly influence the width of the right compared to the left prefrontal lobe

Draft Genome Sequence of Frankia sp. Strain BMG5.12, a Nitrogen-Fixing Actinobacterium Isolated from Tunisian Soils

Members of the actinomycete genus Frankia form a nitrogen-fixing symbiosis with 8 different families of actinorhizal plants. We report a draft genome sequence for Frankia sp. strain BMG5.12, a nitrogen-fixing actinobacterium isolated from Tunisian soils with the ability to infect Elaeagnus angustifolia and Myrica gale

Draft Genome Sequence of Frankia sp. Strain BCU110501, a Nitrogen-Fixing Actinobacterium Isolated from Nodules of Discaria trinevis

Frankia forms a nitrogen-fixing symbiosis with actinorhizal plants. We report a draft genome sequence for Frankia sp. strain BCU110501, a nitrogen-fixing actinobacterium isolated from nodules of Discaria trinevis grown in the Patagonia region of Argentina

Genome sequence of <i>Arenibacter algicola</i> strain TG409, a hydrocarbon-degrading bacterium associated with marine eukaryotic phytoplankton

Arenibacter algicola strain TG409 was isolated from Skeletonema costatum and exhibits the ability to utilize polycyclic aromatic hydrocarbons as sole sources of carbon and energy. Here, we present the genome sequence of this strain, which is 5,550,230 bp with 4,722 genes and an average G+C content of 39.7%

Pre- and Post-entry, Descent and Landing Assessment of the Martian Atmosphere for the Mars 2020 Rover

This review provides an analysis of activities undertaken by the Mars 2020 Council of Atmospheres (CoA) in support of the entry, descent, and landing (EDL) of the Mars 2020 rover Perseverance in Jezero crater, Mars. The activities of the CoA were designed to evaluate the safety of early-stage landing site candidates and, later, to constrain the range of plausible conditions expected at Jezero crater during the early northern spring season of EDL, following the successful blueprint of similar councils for prior landed Mars missions. The multiyear effort of the CoA involved using a combination of numerical modeling of the local Martian atmosphere with limited-domain mesoscale models and atmospheric reanalysis using data assimilation techniques, along with atmospheric observations from multiple orbiting assets, to generate an atmospheric “forecast” for the day of landing. Here we present an overview of these activities, focusing in greater detail on those elements that depart from prior CoA activities as performed for Mars Phoenix, Mars Science Laboratory, and the InSight lander. Following the successful landing of Perseverance on 2021 February 18, reconstruction and reassessment activities were performed and are presented here, comparing prelanding predictions with actual, as-flown conditions

Metal-driven Operation of the Human Large-conductance Voltage- and Ca^(2+)-dependent Potassium Channel (BK) Gating Ring Apparatus

Large-conductance voltage- and Ca^(2+)-dependent K^+ (BK, also known as MaxiK) channels are homo-tetrameric proteins with a broad expression pattern that potently regulate cellular excitability and Ca^(2+) homeostasis. Their activation results from the complex synergy between the transmembrane voltage sensors and a large (>300 kDa) C-terminal, cytoplasmic complex (the “gating ring”), which confers sensitivity to intracellular Ca^(2+) and other ligands. However, the molecular and biophysical operation of the gating ring remains unclear. We have used spectroscopic and particle-scale optical approaches to probe the metal-sensing properties of the human BK gating ring under physiologically relevant conditions. This functional molecular sensor undergoes Ca^(2+)- and Mg^(2+)-dependent conformational changes at physiologically relevant concentrations, detected by time-resolved and steady-state fluorescence spectroscopy. The lack of detectable Ba^(2+)-evoked structural changes defined the metal selectivity of the gating ring. Neutralization of a high-affinity Ca^(2+)-binding site (the “calcium bowl”) reduced the Ca^(2+) and abolished the Mg^(2+) dependence of structural rearrangements. In congruence with electrophysiological investigations, these findings provide biochemical evidence that the gating ring possesses an additional high-affinity Ca^(2+)-binding site and that Mg^(2+) can bind to the calcium bowl with less affinity than Ca^(2+). Dynamic light scattering analysis revealed a reversible Ca^(2+)-dependent decrease of the hydrodynamic radius of the gating ring, consistent with a more compact overall shape. These structural changes, resolved under physiologically relevant conditions, likely represent the molecular transitions that initiate the ligand-induced activation of the human BK channel

What factors in rural and remote extended clinical placements may contribute to preparedness for practice, from the perspective of students and clinicians?

What factors in rural and remote extended clinical placements may contribute to preparedness for practice, from the perspective of students and clinicians? Michele Daly, David Perkins, Koshila Kumar, Chris Roberts and Malcolm Moore Background: Community based rural education opportunities have expanded in Australia, attracting more medical students to placements in rural and remote settings. Aim: To identify the factors in an integrated, community engaged rural placement that may contribute to preparedness for practice (P4P), from the perspective of students and clinicians Methods: Forty two semi-structured interviews with medical students, supervisors and clinicians analysed thematically. Results: Opportunities for clinical learning, personal and professional development and cultural awareness were reported by students and clinicians as key factors that contribute to preparedness for practice. Potential barriers in rural and remote settings included geographical and academic isolation, perceived educational risk and differing degrees of program engagement. Conclusions: A longitudinal clinical placement in a rural setting may enable development of enhanced competencies leading to P4P. A rural setting can help provide a unique experience through hands-on learning, enhanced personal and professional development opportunities and observation of the cultural and contextual impact on health