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Abstract ObjectiveWe use the case of housing insecurity to examine how romantic partner incarceration results in increased and prolonged surveillance of women at home. BackgroundRomantic partner incarceration prompts surveillance from the criminal legal system while simultaneously eroding women's finances, health, and family relationships. Less is known about how these symbiotic harms of romantic partner incarceration enable surveillance beyond the criminal legal system. MethodWe use longitudinal interviews with 35 (previously coresident) romantic partners of incarcerated men, showing how incarceration prompts unwanted moves for partners, how women manage housing insecurity following partner incarceration, and how they become embedded into living arrangements where they are monitored, evaluated, and controlled. ResultsWe identify three primary findings. First, women experiencing housing insecurity after romantic partner incarceration relied heavily on their social ties (and, to a lesser extent, institutional housing providers) while enduring stressful and prolonged housing searches. Second, the homes that women move into expose them to increased surveillance. Women encounter domestic, caregiving, romantic, and financial surveillance. Romantic partner incarceration prompts large changes in surveillance among women who left independent homes, moderate changes in surveillance among women who left comparatively desirable doubled‐up homes, and prolonged surveillance among nonmovers. Finally, women respond to surveillance by monitoring burdens on hosts and reframing stays in shared homes as temporary. ConclusionTaken together, these findings extend prior research on the symbiotic harms of romantic partner incarceration, how women attached to incarcerated men experience surveillance, and how doubled‐up families sustain shared homes. 

Climate warming is causing widespread deglaciation and pioneer soil formation over glacial deposits. Melting glaciers expose rocky terrain and glacial till sediment that is relatively low in biomass, oligotrophic, and depleted in nutrients. Following initial colonization by microorganisms, glacial till sediments accumulate organic carbon and nutrients over time. However, the mechanisms driving soil nutrient stabilization during early pedogenesis after glacial retreat remain unclear. Here, we traced amino acid uptake by microorganisms in recently deglaciated high-Arctic soils and show that fungi play a critical role in the initial stabilization of the assimilated carbon. Pioneer basidiomycete yeasts were among the predominant taxa responsible for carbon assimilation, which were associated with overall high amino acid use efficiency and reduced respiration. In intermediate- and late-stage soils, lichenized ascomycete fungi were prevalent, but bacteria increasingly dominated amino acid assimilation, with substantially decreased fungal:bacterial amino acid assimilation ratios and increased respiration. Together, these findings demonstrate that fungi are important drivers of pedogenesis in high-Arctic ecosystems that are currently subject to widespread deglaciation from global warming. 

Sociologists have shown how displacement reproduces inequality among U.S. renters. Less is known about the experiences of renters prior to displacement, or how the trade-offs that renters adopt to avoid moves also stratify families. This article addresses this gap by examining how renters with few housing alternatives manage landlord neglect in routine maintenance. Using interviews with 131 non-Hispanic white and Latina/o, low- and middle-income renters living in Los Angeles, I find that unaffordable rental markets embed disadvantaged families, particularly low-income Latina/o immigrants, into substandard indoor living environments. Unable or reluctant to move, renters endure a process that I call negotiating neglect, which encompasses decision making around repair requests, following up with repair delays, investing personal funds into maintenance, and managing the health consequences of disrepair. Negotiating neglect demands substantial time, cognitive labor, and, at times, financial resources, and for some families, it is a chronic stressor. Taken together, these findings advance prior research on how unaffordable rental markets widen inequalities among families. 

Structural racism and individual discrimination contribute to racial inequalities in poor housing conditions in the United States. Less is known about whether and how structural racism and individual discrimination shape a parallel, but distinct, process that is also consequential for family wellbeing: experiencing housing unit maintenance delays. Maintenance delays transform acute problems into chronic stressors and increase exposure to physical hazards over time. Using the 2013 American Housing Survey, I examine racial/ethnic disparities in maintenance delays across non-Hispanic White, Black, Hispanic, Asian, and American Indian/Alaska Native renters. Given that 2.3 million low-income households rent using Housing Choice Vouchers (HCVs), a federal housing assistance program with requirements around repair timing, I also examine how renting with a voucher shapes maintenance delays. There are three principal findings. First, White renters are more likely to report timely repairs than either Black or Hispanic renters. Second, for Black renters, both structural racism experienced in rental markets and individual discrimination drive this disparity, whereas Hispanic renters’ diverging maintenance experiences are largely explained by pathways impacted by structural racism. Third, renting with an HCV is not associated with repair timeliness for any racial/ethnic group. Taken together, the findings suggest that racial/ethnic disparities in substandard housing emerge not only through unequal exposure to housing quality problems but also through unequal responses to these issues. 

Abstract Sociologists have shown how searches for rental housing reproduce inequalities by race/ethnicity and household income in the United States. Yet scholars know comparatively less about how legal status may also limit access to shelter. To address this gap, this article compares the housing careers of 30 low-income, undocumented/mixed-status, Mexican, Central American, and South American families with those of ten low-income, predominantly Mexican, U.S. citizen/LPR families across 103 total moves in Los Angeles, California. Though citizen and undocumented renters moved for similar reasons, the process of finding a new home varied substantially across these two groups. Renters’ legal status became salient during the screening portion of rental applications, which requested a credit and background check, a verifiable income, and banking information for each household adult. As a result, undocumented renters were excluded from most formal rentals. Instead, these families searched for sympathetic managers or doubled up with friends, family members, and non-kin. Despite these barriers, undocumented and mixed-status families achieved greater housing security over time by transitioning from guests to hosts in doubled up homes. These findings extend prior research on how housing searches stratify movers, the housing careers of Latino immigrant families, and the punitive consequences of illegality. 

ABSTRACT Accelerated climate warming is causing significant reductions in the volume of Arctic glaciers, such that previously ice‐capped bare ground is uncovered, harboring soil development. Monitoring the thermal and hydrologic characteristics of soils, which strongly affect microbial activity, is important to understand the evolution of emerging terrestrial landscapes. We instrumented two sites on the forefield of a retreating Svalbard glacier, representing sediment ages of approximately 5 and 60 years since exposure. Our instrumentation included an ERT array complemented by adjacent point sensor measurements of subsurface temperature and water content. Sediments were sampled at each location and at two more additional sites (120 and 2000 years old) along a chronosequence aligned with the direction of glacial retreat. Analysis suggests older sediments have a lower bulk density and contain fewer large minerals, which we interpret to be indicative of sediment reworking over time. Two months of monitoring data recorded during summer 2021 indicate that the 60‐year‐old sediments are stratified showing more spatially consistent changes in electrical resistivity, whereas the younger sediments show a more irregular structure, with consequences on heat and moisture conductibility. Furthermore, our sensors reveal that young sediments have a higher moisture content, but a lower moisture content variability. 

Background and Aims Human-driven nitrogen (N) deposition can alter soil biogeochemistry and plant communities, both critical to soil biota. However, understanding the relative impact of the relationship between nutrient resources and plants on soil communities has been hindered by a lack of experimental manipulations of both factors. We hypothesized that soil nematode communities would be structured predominantly by N addition via overall increased abundance, decreased diversity, and compositional shifts to dominance of r-selected bacterial-feeding nematodes. In contrast, we expected plant efects to be less evident and restricted to nematodes directly associated with plants. Methods We used a long-term (18-yrs) experiment in moist meadow alpine tundra involving N addition and codominant plant (nitrophilic Deschampsia cespitosa and nitrogen sensitive Geum rossii) removal. We characterized nematode communities via 18S rRNA metabarcoding and used soil biogeochemistry, plant, and microbial variables to determine factors shaping their communities. Results The N addition treatment increased overall nematode abundance, decreased diversity, and afected the composition of all nematode trophic groups. Overall, nematode communities shifted to dominance of bacterial feeding nematode taxa adapted to N-enriched environments. The likely drivers of this shift were increased soil nitrate and lower pH. The direct efects of codominant plants were more limited, with only changes in Geum rossii appearing to afect nematode responses. Conclusion Overall, nematode communities in N-limited alpine ecosystems are highly sensitive to increases in N availability, irrespective of the nature of N preferences of codominant plants. The resulting nematode community restructuring could signify future shifts in soil functioning throughout alpine landscapes. 

Abstract Bacterial and fungal root endophytes can impact the fitness of their host plants, but the relative importance of drivers for root endophyte communities is not well known. Host plant species, the composition and density of the surrounding plants, space, and abiotic drivers could significantly affect bacterial and fungal root endophyte communities. We investigated their influence in endophyte communities of alpine plants across a harsh high mountain landscape using high-throughput sequencing. There was less compositional overlap between fungal than bacterial root endophyte communities, with four ‘cosmopolitan’ bacterial OTUs found in every root sampled, but no fungal OTUs found across all samples. We found that host plant species, which included nine species from three families, explained the greatest variation in root endophyte composition for both bacterial and fungal communities. We detected similar levels of variation explained by plant neighborhood, space, and abiotic drivers on both communities, but the plant neighborhood explained less variation in fungal endophytes than expected. Overall, these findings suggest a more cosmopolitan distribution of bacterial OTUs compared to fungal OTUs, a structuring role of the plant host species for both communities, and largely similar effects of the plant neighborhood, abiotic drivers, and space on both communities. 

Abstract We examined microbial succession along a glacier forefront in the Antarctic Peninsula representing ∼30 years of deglaciation to contrast bacterial and eukaryotic successional dynamics and abiotic drivers of community assembly using sequencing and soil properties. Microbial communities changed most rapidly early along the chronosequence, and co-occurrence network analysis showed the most complex topology at the earliest stage. Initial microbial communities were dominated by microorganisms derived from the glacial environment, whereas later stages hosted a mixed community of taxa associated with soils. Eukaryotes became increasingly dominated by Cercozoa, particularly Vampyrellidae, indicating a previously unappreciated role for cercozoan predators during early stages of primary succession. Chlorophytes and Charophytes (rather than cyanobacteria) were the dominant primary producers and there was a spatio-temporal sequence in which major groups became abundant succeeding from simple ice Chlorophytes to Ochrophytes and Bryophytes. Time since deglaciation and pH were the main abiotic drivers structuring both bacterial and eukaryotic communities. Determinism was the dominant assembly mechanism for Bacteria, while the balance between stochastic/deterministic processes in eukaryotes varied along the distance from the glacier front. This study provides new insights into the unexpected dynamic changes and interactions across multiple trophic groups during primary succession in a rapidly changing polar ecosystem.