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2. A tale of urban forest patch governance in four eastern US cities

Author

Morzillo, Anita T, Campbell, Lindsay K, King, Kristen L, Lautar, Katherine J, Scott, Lydia, Johnson, Michelle L, Clarke, Mysha, Rhodes, Luke, Pincetl, Stephanie, Sonti, Nancy F, Locke, Dexter H, Schmit, John Paul, Fahey, Robert T, Baker, Matthew E, Darling, Lindsay, and Johnson, Lea R

Subjects
Life on Land, Sustainable Cities and Communities, Forest patch, Urban ecosystems, Urban forest, Urban forest governance, Urban forest management, urban forest patch, Environmental Science and Management, Forestry Sciences, Forestry
Abstract

Urban forests are important components of societal interactions with nature. We focused on urban forest patches, a distinct and underexplored subset of the urban forest that spans land uses and ownerships, and requires silvicultural practices to address their unique biophysical characteristics and management regimes. Our goal was to elucidate multi-scalar urban forest patch governance arrangements as they translated to on-the-ground management in four urban areas (Chicago, New York City, Philadelphia, and Baltimore) within the eastern United States. A transdisciplinary knowledge co-production framework was used to guide identification of the prominent management challenge or dilemma motivating change to forest patch management in each location, and to describe the dynamic interplay of decision-making and governance processes across locations as they advanced toward desired forest conditions. A common management goal existed across all four locations: multi-age, structurally complex forests dominated by regionally native species. Ecological and social concerns affected by local context and city capacity served as starting points prompting management action and new collaborations. Disparate governance arrangements including top-down municipal resources, regional conservation facilitated by landowners, and grass-roots community-driven stewardship led to diverse support-building processes and innovative strategies that served as forces initiating and shaping new management actions. Science and iterative learning and adaptation influenced change in all locations, reinforcing new management arrangements and practices. Among the four study areas, the earliest management of urban forest patches started in the 1980 s, historically lacking embeddedness in urban forest management more broadly, and experiencing challenges with integration into existing governance infrastructure. Ultimately, new management and governance approaches to urban forest patches in all four study areas have evolved uniquely and organically, driven by place-based historical legacies and ongoing socio-ecological feedbacks. The generalization of findings for broader urban forest management guidelines, such as for trees and park, would lead to misguided outcomes.

Published
2022

6. Conceptualizing social-ecological drivers of change in urban forest patches

Author

Johnson, Lea R, Johnson, Michelle L, Aronson, Myla FJ, Campbell, Lindsay K, Carr, Megan E, Clarke, Mysha, D’Amico, Vincent, Darling, Lindsay, Erker, Tedward, Fahey, Robert T, King, Kristen L, Lautar, Katherine, Locke, Dexter H, Morzillo, Anita T, Pincetl, Stephanie, Rhodes, Luke, Schmit, John Paul, Scott, Lydia, and Sonti, Nancy F

Subjects
Basic Behavioral and Social Science, Behavioral and Social Science, Life on Land, Urban woodland, Social-ecological system, Drivers of change, Urban landscape, Interdisciplinary research, Conceptual model, Ecological Applications, Ecology
Abstract

We introduce a conceptual model of the urban forest patch as a complex social-ecological system, incorporating cross-scale interactions. We developed this model through an interdisciplinary process engaging social and ecological scientists and urban land management decision makers, with a focus on temperate forest social-ecological systems. In this paper, we place the production and management of urban forest patches in historical perspective, present a conceptual model of urban forest patches within a broader regional context, and identify a series of research questions to highlight future directions for research on urban forest patches. This conceptual model identifies how spatial and temporal social-ecological drivers interact with patch-level conditions at multiple scales. Our integrative approach can provide insights into the role of social-ecological drivers in shaping forest health, biodiversity, and benefits forest patches provide to people in urban and urbanizing regions, with direct implications for decision-making to improve management outcomes.

Published
2021

8. Disturbance-accelerated succession increases the production of a temperate forest

Author

Gough, Christopher M., Bohrer, Gil, Hardiman, Brady S., Nave, Lucas E., Vogel, Christoph S., Atkins, Jeff W., Bond-Lamberty, Ben, Fahey, Robert T., Fotis, Alexander T., Grigri, Maxim S., Haber, Lisa T., Ju, Yang, Kleinke, Callie L., Mathes, Kayla C., Nadelhoffer, Knute J., Stuart-Haëntjens, Ellen, and Curtis, Peter S.

Published
2021

10. A tale of urban forest patch governance in four eastern US cities

Author

Morzillo, Anita T., Campbell, Lindsay K., King, Kristen L., Lautar, Katherine J., Scott, Lydia, Johnson, Michelle L., Clarke, Mysha, Rhodes, Luke, Pincetl, Stephanie, Sonti, Nancy F., Locke, Dexter H., Schmit, John Paul, Fahey, Robert T., Baker, Matthew E., Darling, Lindsay, and Johnson, Lea R.

Published
2022
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11. Tree Trimming Effects on 3-Dimensional Crown Structure and Tree Biomechanics: A Pilot Project.

Author

Cranmer, Nicholas, Fahey, Robert T., Worthley, Thomas, Witharana, Chandi, Alveshere, Brandon, and Bunce, Amanda

Subjects
*TREE pruning, *CROWNS (Botany), *VEGETATION management, *BIOMECHANICS, *PILOT projects
Abstract

Background: Along electric distribution corridors in urban-exurban landscapes, forest edges are susceptible to damage associated with storm events. Disturbances and management interventions designed to preempt their effects (e.g., tree trimming) alter characteristics of tree structure and morphology (e.g., branch and crown structure), which may be associated with tree failure and likelihood of associated infrastructure damage. This study assessed the relationship between 3-dimensional tree crown structure and tree biomechanics and characterized the effect of utility tree trimming on tree sway dynamics using terrestrial laser scanning (TLS). Methods: In this study we extracted and analyzed measures of crown structure (i.e., crown asymmetry, crown area, total volume, crown diameter to height ratio, and crown evenness) for individual trees during leaf-off conditions before and after implementation of tree trimming and linked these measures to tree biomechanics data, to evaluate how commonly implemented trimming practices affect both tree sway frequency and displacement--important indicators of tree stability. Results: Results illustrated the effects of common tree trimming practices on tree crown structure, but there were not consistent changes to tree movement characteristics directly following tree trimming across our 24 study trees. However, we found that the associated changes in crown structure through tree trimming affected tree displacement in moderate wind conditions. Additionally, we found there were no significant differences between frequencies across treatment types. Conclusions: This pilot project lays the foundation for understanding the intricate relationship between 3-dimensional crown structure and tree biomechanics following roadside tree trimming. [ABSTRACT FROM AUTHOR]

Published
2024
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12. An experimental approach for crown to whole-canopy defoliation in forests

Author

Fahey, Robert T., Tanzer, Danielle N., Alveshere, Brandon C., Atkins, Jeff W., Gough, Christopher M., and Hardiman, Brady S.

Subjects
Ecosystem components -- Environmental aspects, Defoliation -- Environmental aspects, Plant canopies -- Environmental aspects, Earth sciences
Abstract

Canopy defoliation is an important source of disturbance in forest ecosystems that has rarely been represented in large-scale manipulation experiments. Scalable crown to canopy level experimental defoliation is needed to disentangle the effects of variable intensity, timing, and frequency on forest structure, function, and mortality. We present a novel pressurewashing-based defoliation method that can be implemented at the canopy-scale, throughout the canopy volume, targeted to individual leaves or trees, and completed within a timeframe of hours or days. Pressure washing proved successful at producing consistent leaf-level and whole-canopy defoliation, with 10%-20% reduction in leaf area index and consistent leaf surface area removal across branches and species. This method allows for stand-scale experimentation on defoliation disturbance in forested ecosystems and has the potential for broad application. Studies utilizing this standardized method could promote mechanistic understanding of defoliation effects on ecosystem structure and function and development of synthetic understanding across forest types, ecoregions, and defoliation sources. Key words: defoliation, experiment, herbivory, canopy, disturbance. La defoliation du couvert forestier est une source importante de perturbation dans les ecosystemes forestiers qui a rarement ete etudiee dans des experiences de manipulation a grande echelle. Une defoliation experimentale transposable de l'echelle de la cime a celle du couvert forestier est necessaire pour distinguer les effets de la variation de l'intensite, du moment et de la frequence sur la structure, la fonction et la mortalite de la foret. Nous presentons une nouvelle methode de defoliation fondee sur le lavage a la pression qui peut etre : appliquee a l'echelle du couvert forestier, a tout le volume du couvert forestier, appliquee a des arbres ou des feuilles individuellement et realisee a l'interieur d'une periode de quelques heures a quelques jours. Le lavage a la pression a reussi a produire une defoliation constante a l'echelle des feuilles et de l'ensemble du couvert forestier avec une reduction de 10-20 % de l'indice de surface foliaire et l'elimination d'une surface foliaire constante parmi les branches et les especes. Cette methode permet d'experimenter a l'echelle du peuplement avec les perturbations causees par une defoliation dans les ecosystemes forestiers et pourrait avoir un vaste champ d'application. Des etudes utilisant cette methode standardisee pourraient faciliter la comprehension mecaniste des effets de la defoliation sur les fonctions et la structure des ecosystemes ainsi que la comprehension synthetique des types forestiers, des ecoregions et des sources de defoliation. [Traduit par la Redaction] Mots-cles: defoliation, experimentation, broutage, couvert forestier, perturbation., 1. Introduction Large-scale experimental manipulations have been essential to advancing knowledge about ecosystem processes (e.g., Ainsworth and Long 2005; Templer et al. 2017). For example, experiments emulating variable disturbance severity, [...]

Published
2022
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13. The evolution of macrosystems biology

Author

LaRue, Elizabeth A, Rohr, Jason, Knott, Jonathan, Dodds, Walter K, Dahlin, Kyla M, Thorp, James H, Johnson, Jeremy S, González, Mayra I Rodríguez, Hardiman, Brady S, Keller, Michael, Fahey, Robert T, Atkins, Jeff W, Tromboni, Flavia, SanClements, Michael D, Parker, Geoffrey, Liu, Jianguo, and Fei, Songlin

Published
2021

16. Disturbance theory for ecosystem ecologists: A primer.

Author

Gough, Christopher M., Buma, Brian, Jentsch, Anke, Mathes, Kayla C., and Fahey, Robert T.

Subjects
ECOLOGICAL disturbances, ECOLOGISTS, ECOSYSTEMS
Abstract

Understanding what regulates ecosystem functional responses to disturbance is essential in this era of global change. However, many pioneering and still influential disturbance‐related theorie proposed by ecosystem ecologists were developed prior to rapid global change, and before tools and metrics were available to test them. In light of new knowledge and conceptual advances across biological disciplines, we present four disturbance ecology concepts that are particularly relevant to ecosystem ecologists new to the field: (a) the directionality of ecosystem functional response to disturbance; (b) functional thresholds; (c) disturbance–succession interactions; and (d) diversity‐functional stability relationships. We discuss how knowledge, theory, and terminology developed by several biological disciplines, when integrated, can enhance how ecosystem ecologists analyze and interpret functional responses to disturbance. For example, when interpreting thresholds and disturbance–succession interactions, ecosystem ecologists should consider concurrent biotic regime change, non‐linearity, and multiple response pathways, typically the theoretical and analytical domain of population and community ecologists. Similarly, the interpretation of ecosystem functional responses to disturbance requires analytical approaches that recognize disturbance can promote, inhibit, or fundamentally change ecosystem functions. We suggest that truly integrative approaches and knowledge are essential to advancing ecosystem functional responses to disturbance. [ABSTRACT FROM AUTHOR]

Published
2024
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19. Effects of an experimental ice storm on forest canopy structure

Author

Fahey, Robert T., Atkins, Jeff W., Campbell, John L., Rustad, Lindsey E., Duffy, Meghan, Driscoll, Charles T., Fahey, Timothy J., and Schaberg, Paul G.

Subjects
Icing (Meteorology) -- Analysis, Ecosystems -- Analysis, Company organization, Company restructuring/company reorganization, Earth sciences
Abstract

Intermediate disturbances are an important component of many forest disturbance regimes, with effects on canopy structure and related functions that are highly dependent on the nature and intensity of the perturbation. Ice storms are an important disturbance mechanism in temperate forests that often result in moderate-severity, diffuse canopy damage. However, it has not previously been possible to distinguish the specific effect of ice storm intensity (as ice accretion) from predisturbance stand characteristics and physiographic factors. In this study, we utilized a novel experimental ice storm treatment to evaluate the effects of variable ice accretion levels on forest canopy structure. Our results verified significant impacts of ice storm disturbance on near-term canopy structural reorganization. Canopy openness, light transmission, and complexity increased significantly relative to predisturbance baselines and undisturbed controls. We documented variable impacts with disturbance intensity, as significant canopy changes largely occurred with ice accretion levels of [greater than or equal to]12.7 mm. Repeated ice storm disturbance (two consecutive years) had marginal, rather than compounding, effects on forest canopy structure. Our findings are relevant to understanding how ice storms can affect near-term forest canopy structural reorganization and ecosystem processes and add to a growing base of knowledge on the effects of intermediate disturbances on canopy structure. Key words: intermediate disturbance, canopy structure, complexity, ecosystem function. Les perturbations intermediaires sont une composante importante de plusieurs regimes de perturbation des forets qui ont des effets sur la structure du couvert forestier et les fonctions qui y sont reliees lesquels dependent fortement de la nature et de l'intensite de la perturbation. Les tempetes de verglas qui causent des dommages diffus et moderement severes dans le couvert forestier constituent un mecanisme important de perturbation dans les forets temperees. Cependant, il n'a pas precedemment ete possible de distinguer l'effet specifique de l'intensite d'une tempete de verglas (sous forme d'accumulation de glace) des facteurs physiographiques et des caracteristiques du peuplement avant d'etre perturbe. Dans cette etude, nous avons utilise un nouveau traitement experimental qui reproduit une tempete de verglas pour evaluer les effets de differents niveaux d'accumulation de verglas sur la structure du couvert forestier. Nos resultats ont permis de constater les impacts importants de la perturbation due a une tempete de verglas sur la reorganisation structurale a court terme du couvert forestier. L'ouverture, la transmission de la lumiere et la complexite du couvert forestier ont significativement augmente par rapport a la situation anterieure a la perturbation et aux temoins non perturbes. Nous avons observe des impacts variables selon l'intensite de la perturbation alors que des changements importants dans le couvert forestier sont surtout survenus avec des niveaux d'accumulation de verglas [greater than or equal to] 12,7 mm. Des perturbations repetees (deux annees consecutives) dues a une tempete de verglas ont eu des effets marginaux plutot que conjugues sur la structure du couvert forestier. Nos resultats sont pertinents pour comprendre de quelle facon les tempetes de verglas peuvent avoir un impact a court terme sur la reorganisation structurale du couvert forestier et alterer les processus de l'ecosysteme. Ils contribuent au developpement de la base de connaissances sur la structure du couvert forestier. [Traduit par la Redaction] Mots-cles : perturbation intermediaire, structure du couvert forestier, complexite, fonction de l'ecosysteme., Introduction Moderate-severity disturbances are an important driver of ecosystem functioning, structural development, and successional change in forest ecosystems (Frelich 2002; Cohen et al. 2016). Disturbances that result in damage to [...]

Published
2020
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22. Human and biophysical legacies shape contemporary urban forests: A literature synthesis

Author

Roman, Lara A., Pearsall, Hamil, Eisenman, Theodore S., Conway, Tenley M., Fahey, Robert T., Landry, Shawn, Vogt, Jess, van Doorn, Natalie S., Grove, J. Morgan, Locke, Dexter H., Bardekjian, Adrina C., Battles, John J., Cadenasso, Mary L., van den Bosch, Cecil C. Konijnendijk, Avolio, Meghan, Berland, Adam, Jenerette, G. Darrel, Mincey, Sarah K., Pataki, Diane E., and Staudhammer, Christina

Published
2018
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28. Short‐term effects of moderate severity disturbances on forest canopy structure.

Author

Choi, Dennis Heejoon, LaRue, Elizabeth A., Atkins, Jeff W., Foster, Jane R., Matthes, Jaclyn Hatala, Fahey, Robert T., Thapa, Bina, Fei, Songlin, and Hardiman, Brady S.

Subjects
FOREST canopies, OPTICAL radar, EMERALD ash borer, LIDAR, TEMPERATE forests
Abstract

Moderate severity disturbances, those that do not result in stand replacement, play an essential role in ecosystem dynamics. Despite the prevalence of moderate severity disturbances and the significant impacts they impose on forest functioning, little is known about their effects on forest canopy structure and how these effects differ over time across a range of disturbance severities and disturbance types.Using longitudinal data from the National Ecological Observatory Network project, we assessed the effects of three moderate severity press disturbances (beech bark disease, hemlock woolly adelgid and emerald ash borer, which are characterized by continuous disturbance and sustained mortality) and three moderate severity pulse disturbances (spring cankerworm moth, spongy moth and ground fire, which are associated with discrete and relatively short mortalities) on temperate forest canopy structure in eastern US. We studied (1) how light detection and ranging (LiDAR)‐derived metrics of canopy structure change in response to disturbance and (2) whether initial canopy complexity offsets impact of disturbances on canopy structure over time. We used a mixed‐effects modelling framework which included a non‐linear term for time to represent changes in canopy structure caused by disturbance, and interactions between time and both disturbance intensity and initial canopy complexity.We discovered that high intensity of both press and pulse disturbances inhibited canopy height growth while low intensity pulse disturbances facilitated it. In addition, high intensity pulse disturbances facilitated increases in the complexity of the canopy over time. Concerning the impact of initial canopy complexity, we found that the initial canopy complexity of disturbed plots altered the effects of moderate disturbances, indicating potential resilience effects.Synthesis. This study used repeated measurements of LiDAR data to examine the effects of moderate disturbances on various dimensions of forest canopy structure, including height, openness, density and complexity. Our study indicates that both press and pulse disturbances can inhibit canopy height growth over time. However, while the impact of press disturbances on other dimensions of canopy structure could not be clearly detected, likely because of compensatory growth, the impact of pulse disturbances over time was more readily apparent using multi‐temporal LiDAR data. Furthermore, our findings suggest that canopy complexity might help to mitigate the impact of moderate disturbances on canopy structures over time. Overall, our research highlights the usefulness of multi‐temporal LiDAR data for assessing the structural changes in forest canopies caused by moderate severity disturbances. [ABSTRACT FROM AUTHOR]

Published
2023
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36. Tree crown economics.

Author

McNeil, Brenden E, Fahey, Robert T, King, Christopher J, Erazo, Dara A, Heimerl, Ty Z, and Elmore, Andrew J

Subjects
CROWNS (Botany), OPTICAL radar, LIDAR, SPECTRAL reflectance, PREDICTION theory
Abstract

Trees respond to global change in myriad ways, many of which may be linked to adaptations relating to tree crown architecture. However, there is a paucity of theory capable of predicting the adaptive importance and dynamics of crown architecture, most likely because of the difficulties involved in measuring the three‐dimensional arrangement and orientation of tree leaves within individual crowns. Here, we describe a theory of tree crown economics, and use measurements from new lidar (light detection and ranging) instruments, UAVs (unoccupied aerial vehicles), and time‐lapse camera imagery to identify support for two predictions of the theory, that (1) a light competition versus water use economic trade‐off drives covariance among three tree crown functional traits (mean leaf angle, crown density, and crown rugosity), and (2) crown traits can drive spatial and temporal variability in near‐infrared spectral reflectance and related ecosystem functions. Tree crown economic theory can complement leaf economic theory in helping ecologists map and model forest ecosystem responses to global change. [ABSTRACT FROM AUTHOR]

Published
2023
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37. A theoretical framework for the ecological role of three‐dimensional structural diversity.

Author

LaRue, Elizabeth A, Fahey, Robert T, Alveshere, Brandon C, Atkins, Jeff W, Bhatt, Parth, Buma, Brian, Chen, Anping, Cousins, Stella, Elliott, Jessica M, Elmore, Andrew J, Hakkenberg, Christopher R, Hardiman, Brady S, Johnson, Jeremy S, Kashian, Daniel M, Koirala, Anil, Papeş, Monica, St Hilaire, Jamille B, Surasinghe, Thilina D, Zambrano, Jenny, and Zhai, Lu

Subjects
MANAGEMENT philosophy, THEORY-practice relationship
Abstract

The three‐dimensional (3D) physical aspects of ecosystems are intrinsically linked to ecological processes. Here, we describe structural diversity as the volumetric capacity, physical arrangement, and identity/traits of biotic components in an ecosystem. Despite being recognized in earlier ecological studies, structural diversity has been largely overlooked due to an absence of not only a theoretical foundation but also effective measurement tools. We present a framework for conceptualizing structural diversity and suggest how to facilitate its broader incorporation into ecological theory and practice. We also discuss how the interplay of genetic and environmental factors underpin structural diversity, allowing for a potentially unique synthetic approach to explain ecosystem function. A practical approach is then proposed in which scientists can test the ecological role of structural diversity at biotic–environmental interfaces, along with examples of structural diversity research and future directions for integrating structural diversity into ecological theory and management across scales. [ABSTRACT FROM AUTHOR]

Published
2023
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39. Power law scaling relationships link canopy structural complexity and height across forest types.

Author

Atkins, Jeff W., Walter, Jonathan A., Stovall, Atticus E. L., Fahey, Robert T., and Gough, Christopher M.

Subjects
MIXED forests, TEMPERATE forests, FOREST management, FOREST canopies, LATITUDE, CONIFEROUS forests
Abstract

Forest canopy structural complexity (CSC), an emergent ecosystem property, plays a critical role in controlling ecosystem productivity, resource acquisition and resource use‐efficiency; yet is poorly characterized across broad geographic scales and is difficult to upscale from the plot to the landscape.Here, we show that the relationship between canopy height and CSC can be explained using power laws by analysing lidar‐derived CSC data from 17 temperate forest sites spanning over 17 degrees of latitude. Across three plant functional types (deciduous broadleaf, evergreen needleleaf and mixed forests), CSC increases as an approximate power law of forest height. In evergreen needleleaf forests, increases in canopy height do not result in increases in complexity to the same magnitude as in other forest types.We attribute differences in the slope of height:complexity relationships among forest types to: (a) the limited diversity of crown architectures among evergreen conifer trees relative to broadleaf species; (b) differences in how vertical forest layering develops with height; and (c) competitive exclusion by needleleaf species. We show support for these potential mechanisms with an analysis of 4,324 individual trees from across 18 National Ecological Observatory Network sites showing that crown geometry‐to‐tree height relationships differ consistently between broadleaf and needleleaf species.Power law relationships between forest height and CSC have broad implications for modelling, scaling and mapping forest structural attributes. Our results suggest that forest research and management should consider the nonlinearity in scaling between forest height and CSC and that the nature of these relationships may differ by forest type. A free Plain Language Summary can be found within the Supporting Information of this article. [ABSTRACT FROM AUTHOR]

Published
2022
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40. Testing the effect of restoration‐focused silviculture on oak regeneration and groundlayer plant communities in urban–exurban oak woodlands.

Author

Pastick, Jillian, Maurer, Deborah, and Fahey, Robert T.

Subjects
OAK, REGENERATION (Botany), PLANT communities, FORESTS & forestry, SPECIES diversity, GROUND cover plants
Abstract

Throughout their global range, oak‐dominated ecosystems have undergone state changes in stand structure and composition. Land managers face an especially acute challenge in restoring oak ecosystems and promoting oak regeneration in urban–exurban areas, where high‐intensity silvicultural treatments are often not feasible. To investigate low‐intensity management alternatives which could be widely applied in urban–exurban forests, a large‐scale adaptive management experiment was implemented in Lake County, IL, in 2012. Five canopy manipulation treatments of varying intensity, timing, and spatial aggregation were replicated across three study areas and oak seedlings were under‐planted into treatment units following management. Responses of understory light environment, shrub and groundlayer plant communities, and survival and growth of underplanted oak seedlings were evaluated. Understory light availability, canopy openness, total groundlayer plant cover, and groundlayer species diversity all differed among treatments. However, although understory light availability was significantly increased by canopy manipulation, groundlayer communities and oak seedling survival and growth did not differ among treatments. High overall seedling survival rates suggest current conditions are amenable to oak regeneration, but long‐term monitoring will be needed to assess the potential for seedlings to transition to the sapling and canopy layers. Early results demonstrate that canopy‐focused silvicultural treatments can affect the understory light environment and, to some degree, groundlayer plant communities. However, underplanting of oak seedlings paired with subcanopy thinning may be sufficient to restore an oak seedling layer, and (when necessary or preferred) canopy manipulation could potentially be deferred until later in the restoration timeline to promote oak recruitment. [ABSTRACT FROM AUTHOR]

Published
2021
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41. Community and structural constraints on the complexity of eastern North American forests.

Author

Gough, Christopher M., Atkins, Jeff W., Fahey, Robert T., Hardiman, Brady S., LaRue, Elizabeth A., and Zarnetske, Phoebe

Subjects
LEAF area index, FOREST canopies, TEMPERATE forests, WOODY plants, SPATIAL variation, SPECIES diversity
Abstract

Aim: Canopy structural complexity, which describes the degree of heterogeneity in vegetation density, is strongly tied to a number of ecosystem functions, but the community and structural characteristics that give rise to variation in complexity at site to subcontinental scales are poorly defined. We investigated how woody plant taxonomic and phylogenetic diversity, maximum canopy height, and leaf area index (LAI) relate to canopy rugosity, a measure of canopy structural complexity that is correlated with primary production, light capture, and resource‐use efficiency. Location: Our analysis used 122 plots distributed across 10 ecologically and climatically variable forests spanning a > 1,500 km latitudinal gradient within the National Ecological Observatory Network (NEON) of the USA. Time period: 2016–2018. Taxa studied: Woody plants. Methods: We used univariate and multivariate modelling to examine relationships between canopy rugosity, and community and structural characteristics hypothesized to drive site and subcontinental variation in complexity. Results: Spatial variation in canopy rugosity within sites and across the subcontinent was strongly and positively related to maximum canopy height (r2 =.87 subcontinent‐wide), with the addition of species richness in a multivariate model resolving another 2% of the variation across the subcontinent. Individually, woody plant species richness and phylogenetic diversity (r2 =.17 to.44, respectively) and LAI (r2 =.16) were weakly to moderately correlated with canopy rugosity at the subcontinental scale, and inconsistently explained spatial variation in canopy rugosity within sites. Main conclusions: We conclude that maximum canopy height is a substantially stronger predictor of complexity than diversity or LAI within and across forests of eastern North America, suggesting that canopy volume places a primary constraint on the development of structural complexity. Management and land‐use practices that encourage and sustain tall temperate forest canopies may support greater complexity and associated increases in ecosystem functioning. [ABSTRACT FROM AUTHOR]

Published
2020
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42. Application of multidimensional structural characterization to detect and describe moderate forest disturbance.

Author

ATKINS, JEFF W., BOND-LAMBERTY, BEN, FAHEY, ROBERT T., HABER, LISA T., STUART-HAЁNTJENS, ELLEN, HARDIMAN, BRADY S., LARUE, ELIZABETH, MCNEIL, BRENDEN E., ORWIG, DAVID A., STOVALL, ATTICUS E. L., TALLANT, JASON M., WALTER, JONATHAN A., and GOUGH, CHRISTOPHER M.

Subjects
ECOLOGICAL disturbances, ECOLOGICAL impact, FOREST canopies, LIDAR, PLANT canopies, REMOTE sensing
Abstract

The study of vegetation community and structural change has been central to ecology for over acentury, yet the ways in which disturbances reshape the physical structure of forest canopies remain relatively unknown. Moderate severity disturbances affect different canopy strata and plant species, resulting in variable structural outcomes and ecological consequences. Terrestrial lidar (light detection and ranging) offers an unprecedented view of the interior arrangement and distribution of canopy elements, permitting the derivation of multidimensional measures of canopy structure that describe several canopy structural traits (CSTs)with known links to ecosystem function. We used lidar-derived CSTs within a machine learning framework to detect and describe the structural changes that result from various disturbance agents, including moderate severity fire, ice storm damage, age-related senescence, hemlock woolly adelgid, beech bark disease, and chronic acidification. We found that fire and ice storms primarily affected the amount and position of vegetation within canopies, while acidification, senescence, pathogen, and insect infestation altered canopy arrangement and complexity. Only two of the six disturbance agents significantly reduced leaf area, counter to common assumptions regarding many moderate severity disturbances. While findings are limited in their generalizability due to lack of replication among disturbances, they do suggest that the current limitations of standard disturbance detection methods—such as optical-based remote sensing platforms, which are often above-canopy perspectives—limit our ability to understand the full ecological and structural impacts of disturbance, and to evaluate the consistency of structural patterns within and among disturbance agents. A more broadly inclusive definition of ecological disturbance that incorporates multiple aspects of canopy structural change may potentially improve the modeling, detection, and prediction of functional implications of moderate severity disturbance as well as broaden our understanding of the ecological impacts of disturbance. [ABSTRACT FROM AUTHOR]

Published
2020
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43. Forest structure, diversity, and primary production in relation to disturbance severity.

Author

Haber, Lisa T., Fahey, Robert T., Wales, Shea B., Correa Pascuas, Nicolás, Currie, William S., Hardiman, Brady S., and Gough, Christopher M.

Subjects
*SPECIES diversity, *VEGETATION dynamics, *HARDWOODS, *FOREST plants, *TREE mortality
Abstract

Differential disturbance severity effects on forest vegetation structure, species diversity, and net primary production (NPP) have been long theorized and observed. Here, we examined these factors concurrently to explore the potential for a mechanistic pathway linking disturbance severity, changes in light environment, leaf functional response, and wood NPP in a temperate hardwood forest.Using a suite of measurements spanning an experimental gradient of tree mortality, we evaluated the direction and magnitude of change in vegetation structural and diversity indexes in relation to wood NPP. Informed by prior observations, we hypothesized that forest structural and species diversity changes and wood NPP would exhibit either a linear, unimodal, or threshold response in relation to disturbance severity. We expected increasing disturbance severity would progressively shift subcanopy light availability and leaf traits, thereby coupling structural and species diversity changes with primary production.Linear or unimodal changes in three of four vegetation structural indexes were observed across the gradient in disturbance severity. However, disturbance‐related changes in vegetation structure were not consistently correlated with shifts in light environment, leaf traits, and wood NPP. Species diversity indexes did not change in response to rising disturbance severity.We conclude that, in our study system, the sensitivity of wood NPP to rising disturbance severity is generally tied to changing vegetation structure but not species diversity. Changes in vegetation structure are inconsistently coupled with light environment and leaf traits, resulting in mixed support for our hypothesized cascade linking disturbance severity to wood NPP. [ABSTRACT FROM AUTHOR]

Published
2020
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44. Defining a spectrum of integrative trait‐based vegetation canopy structural types.

Author

Fahey, Robert T., Atkins, Jeff W., Gough, Christopher M., Hardiman, Brady S., Nave, Lucas E., Tallant, Jason M., Nadehoffer, Knute J., Vogel, Christoph, Scheuermann, Cynthia M., Stuart‐Haëntjens, Ellen, Haber, Lisa T., Fotis, Alexander T., Ricart, Raleigh, Curtis, Peter S., and Penuelas, Josep

Subjects
*TEMPERATE forests, *PLANTS, *DATA structures
Abstract

Vegetation canopy structure is a fundamental characteristic of terrestrial ecosystems that defines vegetation types and drives ecosystem functioning. We use the multivariate structural trait composition of vegetation canopies to classify ecosystems within a global canopy structure spectrum. Across the temperate forest sub‐set of this spectrum, we assess gradients in canopy structural traits, characterise canopy structural types (CST) and evaluate drivers and functional consequences of canopy structural variation. We derive CSTs from multivariate canopy structure data, illustrating variation along three primary structural axes and resolution into six largely distinct and functionally relevant CSTs. Our results illustrate that within‐ecosystem successional processes and disturbance legacies can produce variation in canopy structure similar to that associated with sub‐continental variation in forest types and eco‐climatic zones. The potential to classify ecosystems into CSTs based on suites of structural traits represents an important advance in understanding and modelling structure–function relationships in vegetated ecosystems. [ABSTRACT FROM AUTHOR]

Published
2019
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45. Quantifying vegetation and canopy structural complexity from terrestrial LiDAR data using the forestr r package.

Author

Atkins, Jeff W., Bohrer, Gil, Fahey, Robert T., Hardiman, Brady S., Morin, Timothy H., Stovall, Atticus E. L., Zimmerman, Naupaka, and Gough, Christopher M.

Subjects
LIDAR, TERRESTRIAL dynamical time, BIOMASS, FOREST management, REMOTE sensing
Abstract

Abstract: Terrestrial LiDAR (light detection and ranging) technologies have created new means of quantifying forest canopy structure, allowing not only the estimation of biomass, but also descriptions of the position and variability in canopy elements in space. Such measures provide novel structural information broadly useful to ecologists. There is a growing need for both a detailed taxonomy of forest canopy structural complexity (CSC) and open, transparent, and flexible tools to quantify complexity in ways that will advance foundational ecological knowledge of structure‐function relationships. The CSC taxonomy we present groups structural descriptors into five categories: leaf area and density, canopy height, canopy arrangement, canopy openness, and canopy variability. This paper also introduces the r package forestr, the first open‐source r package for the calculation of CSC metrics from terrestrial LiDAR data. The r package forestr is an analysis toolbox that works with portable canopy LiDAR (PCL) data and other pixelated/voxelized point clouds derived from terrestrial LiDAR scanning (TLS) data to calculate CSC metrics of interest to ecologists, modellers, forest managers, and remote sensing scientists. [ABSTRACT FROM AUTHOR]

Published
2018
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46. Shifting conceptions of complexity in forest management and silviculture.

Author

Fahey, Robert T., Alveshere, Brandon C., Burton, Julia I., D'Amato, Anthony W., Dickinson, Yvette L., Keeton, William S., Kern, Christel C., Larson, Andrew J., Palik, Brian J., Puettmann, Klaus J., Saunders, Michael R., Webster, Christopher R., Atkins, Jeff W., Gough, Christopher M., and Hardiman, Brady S.

Subjects
FOREST management, FOREST ecology, PLANT adaptation, PLANT anatomy, FORESTRY research
Abstract

In the past several decades, a trend in forestry and silviculture has been toward promoting complexity in forest ecosystems, but how complexity is conceived and described has shifted over time as new ideas and terminology have been introduced. Historically, ecologically-focused silviculture has focused largely on manipulation of structural complexity, but often with the functional role of features in mind. Recently there has been a shift toward viewing complexity in an “adaptive” or “resilience” context, with a focus on understanding forests as complex adaptive systems. As new concepts and terminology are introduced it will be essential that silviculture researchers understand their dissemination into silviculture research, experimental design, and treatment implementation. With this goal in mind we set out to better understand: (1) how complexity terminology and ideas have shifted over time in silviculture, (2) how different conceptions of complexity have been incorporated into silviculture experiments and treatments, and (3) how various complexity concepts are being reconciled with each other in practice. We conducted a multi-stage review of the silvicultural literature for the time period 1992–2017 that included: (1) a broad keyword analysis, (2) a detailed review of a narrower subset of publications, and (3) a thorough review of a set of silvicultural experiments that included a focus on complexity in their design. We also developed a set of case studies that illustrate shifts in complexity conceptions in silvicultural experiment design and analysis. Our analysis indicates considerable lags in incorporation of complexity-focused terminology and ideas into silvicultural research and experimental treatment design. Very few silviculture-focused studies have incorporated adaptive complexity concepts explicitly into design or analysis, even though these concepts were introduced nearly a decade ago and are widely discussed in the literature. However, in our case studies we document how silviculture experiments and research programs that were not designed explicitly around complexity concepts have begun to incorporate these ideas into analysis of treatment outcomes. Silviculture researchers should focus on reconciling conceptions of complexity through analysis of existing experiments and with modeling studies, as well as attempting to better understand mechanistic relationships among structural, functional, and adaptive conceptions of complexity. [ABSTRACT FROM AUTHOR]

Published
2018
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47. Variation in urban forest productivity and response to extreme drought across a large metropolitan region.

Author

Bialecki, Margaret B., Fahey, Robert T., and Scharenbroch, Bryant

Subjects
URBAN forestry, ARBORICULTURE, CLIMATOLOGY, DROUGHTS, PLANT growth
Abstract

The growth and survival of urban trees and maintenance of urban forest canopy are important considerations in adaptation of urban regions to climate change, especially in relation to increasing frequency of extreme climatic events such as drought. However, urban forest growth and drought response may vary considerably within large urban landscapes across gradients in land use, urbanization, forest composition and structure, and environmental factors. We quantified urban forest growth and resilience and resistance to extreme drought in the greater Chicago metropolitan region based on patterns of annual basal area production from increment core analysis. We evaluated variation in growth and drought response in relation to a broad urban to rural gradient, land-use categories, local-scale environmental predictors, and forest community characteristics. Urban forest growth varied greatly among land-use classes and major genera. Plot-level variation in productivity was predicted most strongly (R2 = 0.53) by total plot-level basal area, canopy height, species composition, soil and ground-cover characteristics, and position within the urban-rural gradient. Urban forest growth was strongly related to regional meteorological drought. In periods of extreme drought conditions growth declined in the year of the drought (i.e., was not resistant to drought effects), but was highly resilient to drought in the subsequent 5 year period. Drought response did not vary consistently across land-use classes or among major genera, and site or community characteristics had little explanatory power in predicting drought response. Improved understanding of factors driving variation in urban forest growth and drought response could help inform adaptation-focused urban forest management strategies. [ABSTRACT FROM AUTHOR]

Published
2018
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48. Moderate Disturbance Has Similar Effects on Production Regardless of Site Quality and Composition.

Author

Sagara, Benjamin T., Fahey, Robert T., Vogel, Christoph S., Fotis, Alexander T., Curtis, Peter S., and Gough, Christopher M.

Subjects
FOREST canopies, PATHOGENIC bacteria, FOREST productivity, POPULUS grandidentata, PAPER birch
Abstract

Moderate severity disturbances, which only kill a subset of canopy trees (e.g., via insects, pathogens, and windthrow), are increasingly widespread in North America, and can alter forest structure and production. Whether the net primary production (NPP) of forest stands differing in pre-disturbance site quality and composition respond similarly to moderate severity disturbance, however, is unknown, but critical to understanding the disturbance response dynamics of patchy landscapes. We experimentally disturbed three, 2-ha stands varying in pre-disturbance primary production and community composition, temporarily reducing live stand basal area by 38% to 66% through the stem girdling of all mature early successional aspen (Populus tremuloides Michx. and Populus grandidentata Michx.) and birch (Betula papyrifera Marshall). Disturbance significantly altered stand-scale physical and biological structure and prompted a similar decade-long pattern of wood NPP decline and recovery. All stands exhibited an initial reduction in wood NPP, followed by a recovery period and eventual return to pre-disturbance levels within eight years, with the most productive stand exhibiting an increase in primary production following recovery. Following wood NPP recovery, more biologically diverse forest canopies with higher leaf area indexes intercepted more light, and, consequently, had higher rates of wood NPP.We conclude that, despite substantial pre-disturbance differences in productivity and community composition, relative wood NPP recovery patterns can be similar, though long-term post-recovery primary production may trend higher in more productive and compositionally diverse stands. We suggest that improved mechanistic understanding of different forest ecosystems' responses to disturbances remains critical to informing management decisions across diverse landscape mosaics. [ABSTRACT FROM AUTHOR]

Published
2018
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49. Distribution and Factors Controlling Soil Organic Carbon in the Chicago Region, Illinois, USA.

Author

Scharenbroch, Bryant C., Bialecki, Margaret B., and Fahey, Robert T.

Subjects
URBAN ecology, PRAIRIES, CARBON in soils, ECOSYSTEM management, METROPOLITAN areas, ECOLOGICAL disturbances, URBAN soils, GRASSLANDS
Abstract

Information on soil organic carbon (SOC) storage and dynamics in urban ecosystems will improve the accuracy of global and regional C budgets, sink and source projections of urban SOC with disturbance and climate change, and soil management for maximization of ecosystem services. Soil organic C (0-100 cm) was measured on 190 (0.04 ha) plots in the seven-county Chicago metropolitan region (14,625 km²) to understand and model SOC distribution across an urban landscape. Most SOC (>75%) was at depths greater than 25 cm and these data suggest that 100 cm may not be deep enough to fully capture SOC in urban ecosystems. Compared to other terrestrial ecosystems (e.g., forests, prairies), SOC across the Chicago region is relatively high (25-75 kg m-2). Chicago region SOC was comparable to other urban eco-systems. Chicago region SOC was highest in the most urbanized areas (e.g., commercial, industrial, utility, transportation land use categories) and lowest in agriculture lands. A state-factor model was used to predict SOC storage. Soil forming factors such as climate, parent material, relief, and tree cover were not important predictors of SOC density. Important predictors of SOC across the Chicago region were land-use and other anthropogenic factors (e.g., impervious surface area; distance to the city center, nearest building, highway and street) as well as surface (0-25 cm) soil properties (e.g., SOC, pH, K, microbial biomass, electrical conductivity). These results suggest that urban soils store considerable amounts of SOC, and this storage should be considered in global and regionals C budgets. [ABSTRACT FROM AUTHOR]

Published
2017
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50. Evaluating forest subcanopy response to moderate severity disturbance and contribution to ecosystem-level productivity and resilience.

Author

Fahey, Robert T., Stuart-Haëntjens, Ellen J., Gough, Christopher M., De La Cruz, Aubrie, Stockton, Elizabeth, Vogel, Christoph S., and Curtis, Peter S.

Subjects
TEMPERATE forest ecology, CARBON cycle, ECOLOGICAL disturbances, FOREST canopy gaps
Abstract

North American temperate forests have functioned as a terrestrial carbon (C) sink for more than a century, but the future of this sink is highly uncertain as disturbance frequency increases and regrown forests approach maturity. The subcanopy is integral to the functional recovery of forests, supporting short-term resilience of primary production and longer-term shifts in tree species composition and diversity. However, the factors that contribute to variation in forest subcanopy response to disturbance are not well understood. In this study, we investigated subcanopy shifts in aboveground wood net primary productivity (ANPP w ) and composition following experimental moderate severity disturbance emulating natural canopy mortality from age-related senescence. We assessed the importance of variation in disturbance severity, site fertility, and community composition on subcanopy disturbance response and contribution to total (canopy and subcanopy) ANPP w response. We also assessed the effect of the moderate severity disturbance on species composition and diversity, and competitive patterns within the subcanopy layer. Subcanopy aboveground biomass and ANPP w increased substantially relative to pre-disturbance levels by a factor of 1.4 and 22.7, respectively. The subcanopy (stems <8 cm DBH) made up a large component of overall (canopy plus subcanopy) post disturbance ANPP w (16.2%) and disturbance response (post-disturbance ANPP w /pre-disturbance ANPP w ; 54.1%). Subcanopy ANPP w , subcanopy post-disturbance ANPP w response, and subcanopy contribution to total post-disturbance ANPP w response were all most strongly predicted by subcanopy community composition in combination with canopy composition and site fertility. Variation in disturbance severity was not a strong predictor of subcanopy ANPP w response to disturbance. Subcanopy compositional trends and growth patterns both indicate likely increased heterogeneity in canopy composition (greater β diversity) and a potential shift toward greater dominance by mid-tolerant Quercus rubra (northern red oak). Our results illustrate the importance of the subcanopy in the response of forest productivity to moderate severity disturbance and illustrate that composition of the subcanopy layer exerts a strong influence on the growth response both of the subcanopy and the forest as a whole. Our findings highlight the unique role of moderate severity disturbance, relative to more severe disturbances, in promoting biological and structural heterogeneity in forest ecosystems and favoring underrepresented mid-tolerant species. [ABSTRACT FROM AUTHOR]

Published
2016
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