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1. Towards a predictive framework for biocrust mediation of plant performance: A meta‐analysis

   https://doi.org/10.1111/1365-2745.13269  

   Havrilla, Caroline A. ; Chaudhary, V. Bala ; Ferrenberg, Scott ; Antoninka, Anita J. ; Belnap, Jayne ; Bowker, Matthew A. ; Eldridge, David J. ; Faist, Akasha M. ; Huber‐Sannwald, Elisabeth ; Leslie, Alexander D. ; et al ( September 2019 , Journal of Ecology)

   Understanding the importance of biotic interactions in driving the distribution and abundance of species is a central goal of plant ecology. Early vascular plants likely colonized land occupied by biocrusts — photoautotrophic, surface‐dwelling soil communities comprised of cyanobacteria, bryophytes, lichens and fungi — suggesting biotic interactions between biocrusts and plants have been at play for some 2,000 million years. Today, biocrusts coexist with plants in dryland ecosystems worldwide, and have been shown to both facilitate or inhibit plant species performance depending on ecological context. Yet, the factors that drive the direction and magnitude of these effects remain largely unknown.

   We conducted a meta‐analysis of plant responses to biocrusts using a global dataset encompassing 1,004 studies from six continents.

   Meta‐analysis revealed there is no simple positive or negative effect of biocrusts on plants. Rather, plant responses differ by biocrust composition and plant species traits and vary across plant ontogeny. Moss‐dominated biocrusts facilitated, while lichen‐dominated biocrusts inhibited overall plant performance. Plant responses also varied among plant functional groups: C₄grasses received greater benefits from biocrusts compared to C₃grasses, and plants without N‐fixing symbionts responded more positively to biocrusts than plants with N‐fixing symbionts. Biocrusts decreased germination but facilitated growth of non‐native plant species.

   Synthesis. Results suggest that interspecific variation in plant responses to biocrusts, contingent on biocrust type, plant traits, and ontogeny can have strong impacts on plant species performance. These findings have important implications for understanding biocrust contributions to plant productivity and community assembly processes in ecosystems worldwide.

    

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2. Macroscale analyses suggest invasive plant impacts depend more on the composition of invading plants than on environmental context

   https://doi.org/10.1111/geb.13749  

   Beaury, Evelyn M. ; Sofaer, Helen R. ; Early, Regan ; Pearse, Ian S. ; Blumenthal, Dana M. ; Corbin, Jeffrey D. ; Diez, Jeffrey ; Dukes, Jeffrey S. ; Barnett, David T. ; Ibáñez, Inés ; et al ( August 2023 , Global Ecology and Biogeography)

   Native biodiversity is threatened by the spread of non‐native invasive species. Many studies demonstrate that invasions reduce local biodiversity but we lack an understanding of how impacts vary across environments at the macroscale. Using ~11,500 vegetation surveys from ecosystems across the United States, we quantified how the relationship between non‐native plant cover and native plant diversity varied across different compositions of invading plants (measured by non‐native plant richness and evenness) and environmental contexts (measured by productivity and human activity).

   Continental United States.

   Surveys from 1990s‐present.

   Terrestrial plant communities.

   We fit mixed effects models to understand how native plant richness, diversity and evenness varied with non‐native cover. We tested how this relationship varied when non‐native cover interacted with non‐native plant richness and evenness, and with productivity and human activity.

   Across the United States, communities with greater cover of non‐native plants had lower native plant richness and diversity but higher evenness, suggesting rare native plants can be lost while dominant plants decline in abundance. The relationship between non‐native cover and native community diversity varied with non‐native plant richness and evenness but was not associated with productivity and human activity. Negative associations were strongest in areas with low non‐native richness and evenness, characterizing plant communities that were invaded by a dominant non‐native plant.

   Non‐native plant cover provides a first approximation of invasion impacts on native community diversity, but the magnitude of impact depended on non‐native plant richness and evenness. Relationships between non‐native cover and native diversity were consistent in strength across continental scale gradients of productivity and human activity. Therefore, at the macroscale, invasive plant impacts on native plant communities likely depend more on the characteristics of the invading plants, that is the presence of a dominant invader, than on the environmental context.

    

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3. Nativity and seed dispersal mode influence species’ responses to habitat connectivity and urban environments

   https://doi.org/10.1111/geb.12760  

   Lopez, Bianca E. ; Urban, Dean ; White, Peter S. ( July 2018 , Global Ecology and Biogeography)

   Urbanization alters local environmental conditions and the ability of species to disperse between remnant habitat patches within the urban matrix. Nonetheless, despite the ongoing growth of urban areas worldwide, few studies have investigated the relative importance of dispersal and local environmental conditions for influencing species composition within urban and suburban landscapes. Here, we explore this question using spatial patterns of plant species composition.

   The Research Triangle area, which includes the cities of Raleigh, Durham, Chapel Hill and Cary, in central North Carolina, USA.

   2012–2014.

   Vascular plants.

   We sampled riparian forest plant communities along an urban‐to‐rural gradient and used redundancy analysis to identify predictors of species composition patterns for groups of species categorized by nativity and seed dispersal mode. We first compared the ability of different models of habitat connectivity (least‐cost paths that avoided urban land cover versus Euclidean and along‐stream distance) to explain spatial patterns of species composition. We then partitioned the variation in species composition explained by habitat connectivity models, local environmental conditions and measures of urbanization in the surrounding landscape.

   We found that several groups of native species were best explained by least‐cost path models that avoided urban development, suggesting that urbanization impedes dispersal within this landscape, particularly for short‐dispersed species. Environmental variables related to urbanization (e.g., temperature, stream incision) were important predictors of species composition for many species groups, but measures of urbanization in the surrounding landscape were more important for exotic than for native species.

   Our results demonstrate that urbanization influences plant species composition via its effects on both habitat connectivity and environmental conditions. However, the strength of these effects varies somewhat predictably across seed dispersal modes and between native and exotic species. These results highlight the importance of landscape‐scale planning for urban conservation.

    

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4. Dead litter of resident species first facilitates and then inhibits sequential life stages of range‐expanding species

   https://doi.org/10.1111/1365-2745.13586  

   Smith, Rachel S. ; Blaze, Julie A. ; Byers, James E. ; Friess, ed., Daniel ( January 2021 , Journal of Ecology)

   Resident species can facilitate invading species (biotic assistance) or inhibit their expansion (biotic resistance). Species interactions are often context‐dependent and the relative importance of biotic assistance versus resistance could vary with abiotic conditions or the life stage of the invading species, as invader stress tolerances and resource requirements change with ontogeny. In northeast Florida salt marshes, the abundant dead litter (wrack) of the native marsh cordgrass,Spartina alterniflora, could influence the expansion success of the black mangrove,Avicennia germinans, a tropical species that is expanding its range northward.

   We used two field experiments to examine howS. alterniflorawrack affectsA. germinanssuccess during (a) propagule establishment and (b) subsequent seedling survival. We also conducted laboratory feeding assays to identify propagule consumers and assess how wrack presence influences herbivory on mangrove propagules.

   Spartina alterniflorawrack facilitatedA. germinansestablishment by promoting propagule recruitment, retention and rooting; the tidal regime influenced the magnitude of these effects. However, over timeS. alterniflorawrack inhibitedA. germinansseedling success by smothering seedlings and attracting herbivore consumers. Feeding assays identified rodents—which seek refuge in wrack—as consumers ofA. germinanspropagules.

   Synthesis. Our results suggest that the deleterious effects ofS. alterniflorawrack onA. germinansseedling survival counterbalance the initial beneficial effects of wrack onA. germinansseed establishment. Such seed‐seedling conflicts can arise when species stress tolerances and resource requirements change throughout development and vary with abiotic conditions. In concert with the tidal conditions, the relative importance of positive and negative interactions with wrack at each life stage can influence the rate of local and regional mangrove expansion. Because interaction strengths can change in direction and magnitude with ontogeny, it is essential to examine resident–invader interactions at multiple life stages and across environmental gradients to uncover the mechanisms of biotic assistance and resistance during invasion.

    

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5. Invasive legume management strategies differentially impact mutualist abundance and benefit to native and invasive hosts

   https://doi.org/10.1111/rec.13081  

   Komatsu, Kimberly J. ; Simms, Ellen L. ( December 2019 , Restoration Ecology)

   Determining the best management practices for plant invasions is a critical, but often elusive goal. Invasive removals frequently involve complex and poorly understood biotic interactions. For example, invasive species can leave potent legacies that influence the success of native species restoration efforts, and positive plant‐microbial feedbacks may promote continued reinvasion by an exotic species following restoration. Removal methods can vary in their effects on plant–soil feedbacks, with consequences for restoration of native species. We determined the effects of invasion by a leguminous shrub (French broom;Genista monspessulana) on the density and community composition of, and benefit conferred by, its microbial mutualists in its invading range. Densities of soil‐dwelling rhizobia were much higher in areas invaded byG. monspessulanarelative to uninvaded areas, and this increased density of rhizobia fed back to increase seedling growth of both the invader and native legumes. We further compared how three techniques for removingG. monspessulanaaffected the densities of rhizobia relative to areas whereG. monspessulanawas still present. Removal by hand‐pulling reduced soil rhizobial densities, and reduced growth of one native legume, while having no effect on the growth of the invader. Overall, our results show that the consequences of restoration techniques, both above‐ and belowground, could be critical for the successful removal of an invasive legume and restoration of native species.

    

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