Tradeoffs in demographic mechanisms underlie differences in species abundance and stability

Understanding why some species are common and others are rare is a central question in ecology, and is critical for developing conservation strategies under global change. Rare species are typically considered to be more prone to extinction—but the fact they are rare can impede a general understanding of rarity vs. abundance. Here we develop and empirically test a framework to predict species abundances and stability using mechanisms governing population dynamics. Our results demonstrate that coexisting species with similar abundances can be shaped by different mechanisms (specifically, higher growth rates when rare vs. weaker negative density-dependence). Further, these dynamics influence population stability: species with higher intrinsic growth rates but stronger negative density-dependence were more stable and less sensitive to climate variability, regardless of abundance. This suggests that underlying mechanisms governing population dynamics, in addition to population size, may be critical indicators of population stability in an increasingly variable world

Isolation predicts compositional change after discrete disturbances in a global meta-study

Globally, anthropogenic disturbances are occurring at unprecedented rates and over extensive spatial and temporal scales. Human activities also affect natural disturbances, prompting shifts in their timing and intensities. Thus, there is an urgent need to understand and predict the response of ecosystems to disturbance. In this study, we investigated whether there are general determinants of community response to disturbance across different community types, locations, and disturbance events. We compiled 14 case studies of community response to disturbance from four continents, twelve aquatic and terrestrial ecosystem types, and eight different types of disturbance. We used community compositional differences and species richness to indicate community response. We used mixed-effects modeling to test the relationship between each of these response metrics and four potential explanatory factors: regional species pool size, isolation, number of generations passed, and relative disturbance intensity. We found that compositional similarity was higher between pre- and post-disturbance communities when the disturbed community was connected to adjacent undisturbed habitat. The number of generations that had passed since the disturbance event was a significant, but weak, predictor of community compositional change; two communities were responsible for the observed relationship. We found no significant relationships between the factors we tested and changes in species richness. To our knowledge, this is the first attempt to search for general drivers of community resilience from a diverse set of case studies. The strength of the relationship between compositional change and isolation suggests that it may be informative in resilience research and biodiversity management

The long and the short of it: Mechanisms of synchronous and compensatory dynamics across temporal scales

Synchronous dynamics (fluctuations that occur in unison) are universal phenomena with widespread implications for ecological stability. Synchronous dynamics can amplify the destabilizing effect of environmental variability on ecosystem functions such as productivity, whereas the inverse, compensatory dynamics, can stabilize function. Here we combine simulation and empirical analyses to elucidate mechanisms that underlie patterns of synchronous versus compensatory dynamics. In both simulated and empirical communities, we show that synchronous and compensatory dynamics are not mutually exclusive but instead can vary by timescale. Our simulations identify multiple mechanisms that can generate timescale-specific patterns, including different environmental drivers, diverse life histories, dispersal, and non-stationary dynamics. We find that traditional metrics for quantifying synchronous dynamics are often biased toward long-term drivers and may miss the importance of short-term drivers. Our findings indicate key mechanisms to consider when assessing synchronous versus compensatory dynamics and our approach provides a pathway for disentangling these dynamics in natural systems

Field Measurements of Terrestrial and Martian Dust Devils

Surface-based measurements of terrestrial and martian dust devils/convective vortices provided from mobile and stationary platforms are discussed. Imaging of terrestrial dust devils has quantified their rotational and vertical wind speeds, translation speeds, dimensions, dust load, and frequency of occurrence. Imaging of martian dust devils has provided translation speeds and constraints on dimensions, but only limited constraints on vertical motion within a vortex. The longer mission durations on Mars afforded by long operating robotic landers and rovers have provided statistical quantification of vortex occurrence (time-of-sol, and recently seasonal) that has until recently not been a primary outcome of more temporally limited terrestrial dust devil measurement campaigns. Terrestrial measurement campaigns have included a more extensive range of measured vortex parameters (pressure, wind, morphology, etc.) than have martian opportunities, with electric field and direct measure of dust abundance not yet obtained on Mars. No martian robotic mission has yet provided contemporaneous high frequency wind and pressure measurements. Comparison of measured terrestrial and martian dust devil characteristics suggests that martian dust devils are larger and possess faster maximum rotational wind speeds, that the absolute magnitude of the pressure deficit within a terrestrial dust devil is an order of magnitude greater than a martian dust devil, and that the time-of-day variation in vortex frequency is similar. Recent terrestrial investigations have demonstrated the presence of diagnostic dust devil signals within seismic and infrasound measurements; an upcoming Mars robotic mission will obtain similar measurement types

Managing the whole landscape: historical, hybrid, and novel ecosystems

The reality confronting ecosystem managers today is one of heterogeneous, rapidly transforming landscapes, particularly in the areas more affected by urban and agricultural development. A landscape management framework that incorporates all systems, across the spectrum of degrees of alteration, provides a fuller set of options for how and when to intervene, uses limited resources more effectively, and increases the chances of achieving management goals. That many ecosystems have departed so substantially from their historical trajectory that they defy conventional restoration is not in dispute. Acknowledging novel ecosystems need not constitute a threat to existing policy and management approaches. Rather, the development of an integrated approach to management interventions can provide options that are in tune with the current reality of rapid ecosystem change

From the outside in: narratives of creative arts practitioners working in the criminal justice system

This is an accepted manuscript of an article published by Wiley-Blackwell in The Howard Journal of Crime and Justice on 31/12/2019, available online: https://doi.org/10.1111/hojo.12318 The accepted version of the publication may differ from the final published version.The penal voluntary sector is highly variegated in its roles, practices and functions, though research to date has largely excluded the experiences of front-line practitioners. We argue that engaging with the narratives of practitioners can provide fuller appreciation of the potential of the sector’s work. Though life story and narrative have been recognised as important in offender desistance (Maruna, 2001), the narrative identities of creative arts practitioners, who are important ‘change agents’ (Albertson, 2015), are typically absent. This is despite evidence to suggest that a practitioner’s life history can be a significant and positive influence in the rehabilitation of offenders (Harris, 2017). Using narratological analysis (Bal, 2009), this study examined the narratives of 19 creative practitioners in prisons in England and Wales. Of particular interest were the formative experiences of arts practitioners in their journey to prison work. The findings suggest that arts practitioners identify with an ‘outsider’ status and may be motivated by an ethic of mutual aid. In the current climate of third sector involvement in the delivery of criminal justice interventions, such a capacity may be both a strength and weakness for arts organisations working in this field

Incorporating diversity measures into Ecological Site Descriptions to manage biodiversity on heterogeneous landscapes

We examined whether diversity metrics could be incorporated into the Ecological Site Descriptions and State and Transition Models (ESD-STM) framework to manage multiple goals including biodiversity on heterogeneous landscapes. We evaluated plant diversity in two vegetation states (i.e., grassland and shrubland) across three ecological sites in Southern California and found that alpha diversity differed by ecological site and vegetation state. Functional diversity remained similar across our three ecological sites. Beta diversity between vegetation states was higher than that within each state—in other words, two states support more dissimilar vegetation communities than one state alone. Describing both biodiversity metrics and forage values in ESD-STM may help guide conservation planning on working ranches, such as the Tejon Ranch in Southern California. © 2020 The AuthorsThe Rangelands archives are made available by the Society for Range Management and the University of Arizona Libraries. Contact [email protected] for further information

Seed mass and summer drought survival in a Mediterranean-climate ecosystem

We related seed mass to summer drought survival in a Mediterranean-climate ecosystem. Previous experimental evidence linking seed mass and survival under drought is limited and at times contradictory. We tracked summer drought survival among four families/subfamilies at a restoration site in southwestern Australia. We coupled these observations with a glasshouse experiment assessing the growth and root morphology of Acacia and Eucalyptus species, with a range of seed masses, under mild and severe drought compared with a well-watered control. Summer drought survival in the field increased with seed mass across all four families/subfamilies. Seedling root biomass and length increased with seed mass consistently across five harvests over 60 days. Initial survival of seedlings in the glasshouse increased with seed mass and decreased with drought, but there was no interaction between the two. Greater absolute root investment provides a mechanism for both short and longer-term drought survival. Within-species variation in root growth may also affect the relative versus absolute survival advantage of large-seeded species. The benefits of large seed mass for establishment under environmental hazards are often considered to be temporary. Our results show that seed mass was correlated with other traits, including root length, which in turn, increased longer-term drought survival. Traits correlated with seed mass should therefore be considered in explanations of the ecological effect of seed mass variation

Seedling emergence and summer survival after direct seeding for woodland restoration on old fields in south-western Australia

Restoration opportunities provided by an emerging carbon market have largely focused on large‐scale woodland restoration projects. Gondwana Link is one such project operating in a 1000‐km corridor in south‐western Australia. We identified environmental factors affecting the success of woody‐species restoration at a dry‐woodland Gondwana Link site, Peniup, by relating the emergence and survival of 1522 seedlings to abiotic and biotic variables, including soil conditions and weed cover. We found soil conditions were highly variable across the site and, together with the dry Mediterranean‐climate summer, affected seedling emergence and summer survival. Seedling emergence was higher in sandy soils, but summer survival was higher in clay soils. Most of the seedlings that emerged and survived the summer were in either the Fabales or Myrtaceae family. We concluded that attempts to analyse restoration outcomes that do not consider how the influence of primary abiotic and biotic factors changes over time may mask the mechanisms driving seedling establishment

Towards a conceptual framework for the management of novel ecosystems

Novel ecosystems can serve conservation aims, whether by maintaining species diversity or providing ecosystem services. The chapter presents a framework to aid in evaluation of such benefits. It first describes approaches to identify thresholds shifts into novel territory. Second, it considers how functional similarities between novel and historical ecosystems can inform decisions about when and how to intervene in novel ecosystems. It concludes with a discussion of practical considerations and methods for managing these systems. The chapter presents the story of Rodrigues fody (Foudia flavicans), which highlights three key points. First, it indicates that novel species interactions should be considered in conservation efforts. Second, it demonstrates that novel ecosystems can provide some of the same functions as their historical counterparts. Lastly, it serves as a cautionary tale: the fody nearly went extinct due to anthropogenic land change