Your search keyword '"Disturbance ecology"' showing total 665 results

1. The ecology of giant kelp colonization and its implications for kelp forest restoration.

Author

Reed, Daniel C., Schroeter, Stephen C., Huang, David, Weisman, Denise, Beheshti, Kathryn M., and Smith, Rachel S.

Subjects

*COLONIZATION (Ecology), *DISPERSAL (Ecology), *ECOLOGICAL disturbances, *ARTIFICIAL reefs, *GIANT kelp, *MACROCYSTIS

Abstract

The success and cost‐effectiveness of kelp forest restoration hinges on understanding the colonization ecology of kelps, particularly with respect to dispersal potential, recruitment success, and subsequent establishment. To gain needed insight into these processes we examined spatial patterns and temporal trajectories of the colonization of a large artificial reef by the giant kelp Macrocystis pyrifera. The 151 ha artificial reef complex was constructed in three phases over 21 years, enabling dispersal, recruitment, and subsequent establishment to be examined for a wide range of environmental conditions, dispersal distances, and source population sizes. Natural colonization of all phases of the artificial reef by giant kelp was rapid (within 1 year) and extended across the entire 7‐km‐long reef complex. Colonization density declined with distance from the nearest source population, but only during the first phase when the distance from the nearest source population was ≤3.5 km. Despite this decline, recruitment on artificial reef modules farthest from the source population was sufficient to produce dense stands of kelp within a couple of years. Experimental outplanting of the artificial reef with laboratory‐reared kelp embryos was largely successful but proved unnecessary, as the standing biomass of kelp resulting from natural recruitment exceeded that observed on nearby natural reefs within 2–3 years of artificial reef construction for all three phases. Such high potential for natural colonization following disturbance has important implications for kelp forest restoration efforts that employ costly and logistically difficult methods to mimic this process by active seeding and transplanting. [ABSTRACT FROM AUTHOR]

Published

2024

2. Tree demographics and soil charcoal evidence of fire disturbances in an inaccessible forest atop the Mount Lico inselberg, Mozambique.

Author

Courtney Mustaphi, Colin J., Platts, Philip J., Willcock, Simon, Timberlake, Jonathan R., Osborne, Jo, Matimele, Hermenegildo, Osgood, Hanniah S., Muiruri, Veronica M., Gehrels, Maria, Bayliss, Julian, and Marchant, Rob

Subjects

*CARBON in soils, *FOREST fire ecology, *FOREST soils, *ECOLOGICAL disturbances, *LOAM soils

Abstract

Societal Impact Statement Summary Highland forests of Mozambique have been strongly modified by human activities for millennia. Some highlands have sheer rock cliffs and are highly inaccessible to people and appear relatively undisturbed. Evidence from the forest and soils of inaccessible Mount Lico show that the fire regime has changed over the recent millennia. As climate and fire regimes continue to change, management of highland ecosystems will be crucial to sustain the high biodiversity and mountain‐water resources that provide key ecosystem services to people living close to these forests. The sheer rock cliffs of the Mount Lico inselberg, northern Mozambique, is relatively inaccessible to people. A 0.57 km2 forest covers the top of the isolated mountain, and the tree demographics and soil offer an opportunity to investigate the long‐term fire ecology of the forests of the western, leeside of the mountain and potential for changing regional hydroclimate of the Late Holocene. On the western side of the mountaintop, a 20 × 20 m plot was surveyed for tree taxa, heights and bole diameters. A 220 cm deep pit was dug into the forest soil and analysed to describe the soil texture and carbon content. Charcoal was quantified on sieved subsamples and classified into charcoal morphologies that were then grouped by how readily entrainable on an index score. Three radiocarbon dates were collected from pieces charcoal. The forest is a combination of montane and woodland tree taxa that differed from the older, more mesic eastern side and reflected differential disturbance patterns. The reddish loam soils dated to the Middle Holocene. Charcoal was present in all soil subsamples and varied little until increasing consistently during the past millennium. The charcoal morphologies suggested a combination of locally derived charcoal and charcoal derived from the surrounding lowlands with the latter increasing in the past centuries. Few Holocene paleoenvironmental records have been developed from tropical soils in Africa and are useful in locations that do not host lakes and wetlands. Both tree demographics and soil charcoal suggest that changing forest disturbance regimes began during the past millennium. An understanding of history informs future conservation and appropriate management of these special places. [ABSTRACT FROM AUTHOR]

Published

2024

3. Flood resilience: Response of an Australian sub‐tropical riparian rainforest to catastrophic flooding.

Author

Martiniello, Léandra, Baker, Andrew G., Grant, John Campbell, and Palmer, Graeme

Subjects

*RIPARIAN ecology, *ECOLOGICAL resilience, *ECOLOGICAL disturbances, *BIOTIC communities, *NOXIOUS weeds

Abstract

Riparian taxa are subject to dynamic, intense, flood‐related stressors, and have evolved traits to persist in this environment. Climate change‐induced intensification of flood regimes pose a threat to these ecosystems, and little is understood about their resilience to this intensification. Following two consecutive major floods (the first flood record‐breaking) along the subtropical coast of eastern Australia in March 2022, we used methods based on persistence (resprouting, seedling recruitment), and floristic structure (height, DBH) and assemblage, to assess the resilience of an old growth riparian rainforest to severe flooding in the 12‐month post‐flooding window. Smallerwoody plants (stems <10 m tall, <30 cm DBH) were the most impacted and were significantly impacted by flooding. Native species richness and plant density (plants/m−2) significantly decreased between before and 3 months post‐flooding, after which they continued to significantly increase to surpass pre‐flood values. Overall, ~35% of taxa exhibited resprouting, ~28% of taxa exhibited seedling recruitment, and ~11% exhibited both resprouting and recruitment. An additional ~21% native taxa were introduced to the site via seedling recruitment, along with 65 invasive species. Model‐based multivariate analysis showed flooding significantly altered community floristics (p = 0.026) at 3 months. At 12 months post‐flooding the community was recovering, becoming more floristically similar to its pre‐flood composition. The riparian rainforest exhibited high resilience to intense flooding. Impact, persistence, and resilience varied amongplots, and the community took 12 months to move into recovery. We found that persistence, and floristic structure and composition weighted against impact were effective measures of ecosystem resilience. In the absence of further consecutive events, mature‐phase riparian rainforests are likely to be structurally and floristically resilient to climate change‐induced amplification of flood regimes. Further studies should build on this framework to include invasive weed species impacts, for a more accurate assessment of impacts. [ABSTRACT FROM AUTHOR]

Published

2024

4. Beyond resilience: Responses to changing climate and disturbance regimes in temperate forest landscapes across the Northern Hemisphere.

Author

Dollinger, Christina, Rammer, Werner, Suzuki, Kureha F., Braziunas, Kristin H., Keller, Timon T., Kobayashi, Yuta, Mohr, Johannes, Mori, Akira S., Turner, Monica G., and Seidl, Rupert

Subjects

*CLIMATE change mitigation, *FOREST resilience, *ECOLOGICAL disturbances, *TEMPERATE forests, *FOREST dynamics

Abstract

Climate change has profound impacts on forest ecosystem dynamics and could lead to the emergence of novel ecosystems via changes in species composition, forest structure, and potentially a complete loss of tree cover. Disturbances fundamentally shape those dynamics: the prevailing disturbance regime of a region determines the inherent variability of a system, and its climate‐mediated change could accelerate forest transformation. We used the individual‐based forest landscape and disturbance model iLand to investigate the resilience of three protected temperate forest landscapes on three continents—selected to represent a gradient from low to high disturbance activity—to changing climate and disturbance regimes. In scenarios of sustained strong global warming, natural disturbances increased across all landscapes regardless of projected changes in precipitation (up to a sevenfold increase in disturbance rate over the 180‐year simulation period). Forests in landscapes with historically high disturbance activity had a higher chance of remaining resilient in the future, retaining their structure and composition within the range of variability inherent to the system. However, the risk of regime shift and forest loss was also highest in these systems, suggesting forests may be vulnerable to abrupt change beyond a threshold of increasing disturbance activity. Resilience generally decreased with increasing severity of climate change. Novelty in tree species composition was more common than novelty in forest structure, especially under dry climate scenarios. Forests close to the upper tree line experienced high novelty in structure across all three study systems. Our results highlight common patterns and processes of forest change, while also underlining the diverse and context‐specific responses of temperate forest landscapes to climate change. Understanding past and future disturbance regimes can anticipate the magnitude and direction of forest change. Yet, even across a broad gradient of disturbance activity, we conclude that climate change mitigation is the most effective means of maintaining forest resilience. [ABSTRACT FROM AUTHOR]

Published

2024

5. 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

6. A structural equation modeling-based approach to identify the determinants of Lantana camara invasion in the Terai Arc Landscape, India.

Author

Mondal, Tamali, Dasgupta, Soumya, Bhatt, Dinesh, and Krishnamurthy, Ramesh

Subjects

LANTANA camara, INDEPENDENT variables, CONFIRMATORY factor analysis, TIGERS, FOREST density, DATA logging

Abstract

Biological invasion is regarded as one of the most important disturbance parameters and threats for sustaining biodiversity. Global warming, industrialization, and open niche created due to the expansion of development initiatives contribute to the successful spread of invasive species around the world. The contributions of various biotic and abiotic factors in different spatial scales are crucial for an invasive to establish in its invaded area. We assessed the spatial distribution of invasion by Lantana camara in the Corbett Tiger Reserve and Rajaji Tiger Reserve within the Terai Arc Landscape Complex. The presence locations of Lantana were assessed within 10 m × 10 m plots (n = 666), and information on habitat variables such as tree density, canopy cover, shrub density, shrub cover, and anthropogenic pressures were collected. We also synthesized information on climate and topography data of the region from global databases. Confirmatory factor analysis was done using the presence of Lantana as response variable and habitat, anthropogenic, climatic, and topographic variables as predictor variables. We found that for Rajaji Tiger Reserve, habitat and anthropogenic variables were the major influencing factors for Lantana invasion, whereas, for Corbett Tiger Reserve, climate and topography were the major determining factors. Mean diurnal temperature, precipitation of warmest quarter, lopping, and logging were the factors determining the Lantana invasion in the landscape. The influence of different factors affecting the invasion of Lantana differs between Rajaji Tiger reserve and Corbett Tiger Reserve. The result of the study will be helpful for formulating effective policy intervention to reduce the invasion of Lantana in these ecologically important tiger reserves. [ABSTRACT FROM AUTHOR]

Published

2024

7. The resistance of Georgia coastal marshes to hurricanes.

Author

Smith, Rachel S., Pennings, Steven C., Alber, Merryl, Craft, Christopher, and Byers, James E.

Subjects

HURRICANE Matthew, 2016, SALT marshes, HURRICANES, MARSHES, STORM surges, SEAWATER salinity, EPHEMERAL streams, OCEAN

Abstract

Ecosystems vary broadly in their responses to disturbance, ranging from highly impacted to resilient or resistant. We conducted a large‐scale analysis of hurricane disturbance effects on coastal marshes by examining 20 years of data from 10 sites covering 100,000 ha at the Georgia Coastal Ecosystems Long‐Term Ecological Research site distributed across gradients of salinity and proximity to the ocean. We analyzed the impacts of Hurricanes Matthew (in 2016) and Irma (in 2017) on marsh biota (plants, crabs, and snails) and physical attributes (erosion, wrack deposition, and sedimentation). We compared these variables prior to the storms (2000–2015) to years with storms (2016, 2017) to those after the storms (2018–2020). Hurricanes generated storm surges that increased water depth and salinity of oligotrophic areas for up to 48 h. Biological variables in the marsh showed few effects of the hurricanes. The only physical variable affected was creek bank slumping; however, slumping had already increased a year before the hurricanes, suggesting that slumping could have a different cause. Thus, our study uncovered only minor, ephemeral impacts on Georgia coastal marshes, highlighting their resistance to hurricane disturbance of the lower magnitude that typically confronts this region of coastline. [ABSTRACT FROM AUTHOR]

Published

2024

8. Promoting urban ecological resilience through the lens of avian biodiversity.

Author

McCloy, Michael W. D., Andringa, R. Keith, Maness, Terri J., Smith, Jennifer A., Grace, Jacquelyn K., Sharifi, Ayyoob, Mojica, Elizabeth, and Sun, Yixuan

Subjects

ECOLOGICAL resilience, URBAN ecology, URBAN biodiversity, ECOLOGICAL disturbances, CITIES & towns, BIODIVERSITY

Abstract

The significance of urban landscapes in safeguarding biodiversity is often disregarded, even though a considerable amount of conservation focus is directed toward biodiversity hotspots where urban land conversion is happening at the fastest pace. Maintaining biodiversity in urban areas not only benefits the environment, but along with social, economic, and technological factors can increase the stability of urban systems to disturbance, a concept known as "urban resilience". In this synthesis paper, we explore the ecological dimension of urban resilience and specifically focus on avian biodiversity because birds are easy to observe, relatively abundant, and can serve as an indicator of the overall health of urban environments. We first examine the concept of ecological resilience and discuss the role of environmental stressors associated with urbanization in the ongoing avian biodiversity crisis. We then provide an overview of characteristics of the urban environment that may promote ecological resilience in birds, and associations between social and economic factors and urban ecological resilience. Finally, we provide recommendations on future research regarding strategies to improve urban ecological resilience and thus, urban resilience as a whole, at the intersections of urban ecology, ecosystem ecology, environmental justice, and urban planning. Since 68% of the world's population is projected to live in urban areas by 2050, it is imperative that scientists, urban planners, civil engineers, architects, and others consider urban ecological resilience as a dimension of both environmental health and the resilience of cities to future natural and anthropogenic stressors. [ABSTRACT FROM AUTHOR]

Published

2024

9. Arrive and wait: Inactive bacterial taxa contribute to perceived soil microbiome resilience after a multidecadal press disturbance.

Author

Barnett, Samuel E. and Shade, Ashley

Subjects

*CLIMATE change, *BIOGEOCHEMICAL cycles, *PSYCHOLOGICAL resilience, *ECOLOGICAL disturbances, *MICROBIAL communities

Abstract

Long‐term (press) disturbances like the climate crisis and other anthropogenic pressures are fundamentally altering ecosystems and their functions. Many critical ecosystem functions, such as biogeochemical cycling, are facilitated by microbial communities. Understanding the functional consequences of microbiome responses to press disturbances requires ongoing observations of the active populations that contribute to functions. This study leverages a 7‐year time series of a 60‐year‐old coal seam fire (Centralia, Pennsylvania, USA) to examine the resilience of soil bacterial microbiomes to a press disturbance. Using 16S rRNA and 16S rRNA gene amplicon sequencing, we assessed the interannual dynamics of the active subset and the 'whole' bacterial community. Contrary to our hypothesis, the whole communities demonstrated greater resilience than active subsets, suggesting that inactive members contributed to overall structural resilience. Thus, in addition to selection mechanisms of active populations, perceived microbiome resilience is also supported by mechanisms of dispersal, persistence, and revival from the local dormant pool. [ABSTRACT FROM AUTHOR]

Published

2024

10. Fire severity drives understory community dynamics and the recovery of culturally significant plants.

Author

Dickson‐Hoyle, Sarah, Eatherton, Arial, Baron, Jennifer N., Tiribelli, Florencia, and Daniels, Lori D.

Subjects

WILDFIRE prevention, FIRE management, SPECIES diversity, CONIFEROUS forests, PLANT diversity, NATIVE species, ECOSYSTEMS, UNDERSTORY plants, PLANT communities

Abstract

Anthropogenic influences are altering fire regimes worldwide, resulting in an increase in the size and severity of wildfires. Simultaneously, throughout western North America, there is increasing recognition of the important role of Indigenous fire stewardship in shaping historical fire regimes and fire‐adapted ecosystems. However, there is limited understanding of how ecosystems are affected by or recover from contemporary "megafires," particularly in terms of understory plant communities that are critical to both biodiversity and Indigenous cultures. To address this gap, our collaborative study, in partnership with Secwépemc First Nations, examined understory community recovery following a large, mixed‐severity wildfire that burned in the dry and mesic conifer forests of British Columbia, Canada, with a focus on plants of high cultural significance to Secwépemc communities. To measure the effect of a continuous gradient of fire severity across forest types, we conducted field assessments of fire severity and sampled understory plants 4 years postfire. We found that native species richness and richness of species of high cultural significance were lowest in areas that burned at high severity, with distinct compositional differences between unburned areas and those that burned at high severity. These findings were consistent across forest types characterized by distinct historical fire regimes. In contrast, richness of exotic species increased with increasing fire severity in the dominant montane interior Douglas‐fir forests, with exotic species closely associated with areas that burned at high severity. Our study indicates that recent megafires may be pushing ecosystems outside their historical range of variability, with negative implications for ecosystem recovery and cultural use across these fire‐affected landscapes. We also found consistently higher plant diversity, and both native and cultural species richness, in subalpine forests. Collectively, our results provide strong evidence of the ecological and cultural significance of low‐ to moderate‐severity fire and subalpine forests, and the longstanding and ongoing role of Indigenous peoples in shaping these landscapes. As wildfires continue to impact ecosystems and human communities, this study offers novel insights into the recovery of important ecological and cultural values, while highlighting the need to support ethical research collaborations with Indigenous communities and Indigenous‐led revitalization of fire and plant stewardship. [ABSTRACT FROM AUTHOR]

Published

2024

11. Disturbance theory for ecosystem ecologists: A primer

Author

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

Subjects

disturbance ecology, ecological theory, ecosystem ecology, ecosystem functioning, net primary production, resilience, Ecology, QH540-549.5

Abstract

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.

Published

2024

12. Movement response of small mammals to burn severity reveals importance of microhabitat features.

Author

Slovikosky, Sandy A, Merrick, Melissa J, Morandini, Marina, and Koprowski, John L

Subjects

*BIOTIC communities, *ECOLOGICAL disturbances, *ECOLOGICAL niche, *PREDATION, *FORAGING behavior, *MAMMALS, *WILDFIRE prevention

Abstract

Disturbance events are increasing at a global scale, with cascading impacts to ecosystems and residents therein that include fragmentation and altered vegetation structure and composition. Such changes may disproportionately impact small mammal movements, risk perception, and community dynamics as smaller species perceive such changes at finer spatial scales. We examined movement response to burn severity, vegetation structure, and composition in Mexican woodrats (Neotoma mexicana), a common but understudied small mammal species. The study was conducted on Mt. Graham in southeastern Arizona, United States, following a fire that burned over 19,400 ha. We measured path tortuosity of woodrats translocated over patches of different burn severity. Tortuosity can indicate microhabitat selection, foraging behavior, and perceived predation risk—features affecting population-level processes that changes in community composition alone cannot fully demonstrate. We captured woodrats, released them 50 m away from their midden, and used fluorescent powder to track woodrat movement paths through areas of low–severe burn severity. We analyzed features of the resulting powder trails including straightness, average step length, fractal dimension, and squared displacement. We also compared used versus expected vegetation structure and composition along movement paths across burn severities. Analyses indicated shorter step length with increased bare ground, as well as higher squared displacement in areas with more logs. Vegetation analyses likewise showed that logs were heavily used in low-burned areas, whereas dense vegetation was avoided in highly burned areas. Burn severity alone did not have a direct effect on movement parameters, rather its influence on vegetative composition and structure appears to be most important. Selection for logs and avoidance of dense vegetation may be attributed to auditory concealment and ease of travel. With projected increases in wildfire extent and severity, this work represents an understudied approach to understanding these disturbances and their effects on ecological communities. [ABSTRACT FROM AUTHOR]

Published

2024

13. Foredune‐forming grass and plant diversity show contrasting responses along the southeastern United States coast after hurricane disturbance.

Author

De Battisti, Davide, Angelini, Christine, Joyce, Matthew, Crotty, Sinead, Fairchild, Tom P, Fischman, Hallie S, and Griffin, John N

Subjects

*PLANT diversity, *EXTREME weather, *PLANT species diversity, *HURRICANES, *SPECIES diversity

Abstract

Aims: Latitudinal gradients in plant communities are well studied, yet how these fundamental ecological patterns influence ecosystem recovery after extreme weather events remains largely unknown. In coastal foredunes, we investigated how the cover of a key dune‐building grass (Uniola paniculata), vegetation diversity and vegetation cover vary along a short latitudinal gradient during recovery from hurricane disturbance. Location: Southeastern USA. Methods: We surveyed 24 sites, from central Florida to north Georgia (>400 km), four times over 18 months. General linear mixed‐effect models were used to unravel patterns of vegetation responses across latitude. Results: Vegetation properties showed countervailing patterns across the latitudinal gradient. While vegetation richness, functional diversity and total cover generally declined, Uniola cover increased with increasing latitude. Further, the latitude–richness relationship strengthened while the latitude–functional diversity relationship was invariant with increasing time since the hurricane disturbance. Meanwhile, the latitude–Uniola association was seasonally dependent and strongest in the summer. Latitude also influenced diversity–cover relationships: vegetation cover was positively related to species richness at lower latitudes, while it was positively associated with functional diversity only at northern sites. We found no relationship between species richness or functional diversity and increases in cover between time steps; however, recruitment of new species and functional groups was associated with increases in vegetation cover between time steps at northern sites. Conclusions: Our study highlights the temporal dynamism and contrasting patterns along latitudinal gradients exhibited by key engineering species and overall plant diversity in foredunes — a crucial line of coastal protection — exposed to hurricane disturbances. These results suggest a need for greater integration of latitudinal and diversity effects into our understanding of coastal dune resilience. They also highlight the potential benefits of enhancing dune plant biodiversity, particularly in areas where the dune‐building grasses that are classically employed in restoration (e.g., Uniola) are unfavoured, to accelerate the re‐establishment of well‐vegetated dunes. [ABSTRACT FROM AUTHOR]

Published

2024

14. Divergent ecological responses to typhoon disturbance revealed via landscape‐scale acoustic monitoring.

Author

Ross, Samuel R. P.‐J., Friedman, Nicholas R., Dudley, Kenneth L., Yoshida, Takuma, Yoshimura, Masashi, Economo, Evan P., Armitage, David W., and Donohue, Ian

Subjects

*TYPHOONS, *EXTREME weather, *BIOTIC communities, *STRUCTURAL dynamics, *ECOLOGICAL carrying capacity, *ECOLOGICAL impact

Abstract

Climate change is increasing the frequency, intensity, and duration of extreme weather events across the globe. Understanding the capacity for ecological communities to withstand and recover from such events is critical. Typhoons are extreme weather events that are expected to broadly homogenize ecological dynamics through structural damage to vegetation and longer‐term effects of salinization. Given their unpredictable nature, monitoring ecological responses to typhoons is challenging, particularly for mobile animals such as birds. Here, we report spatially variable ecological responses to typhoons across terrestrial landscapes. Using a high temporal resolution passive acoustic monitoring network across 24 sites on the subtropical island of Okinawa, Japan, we found that typhoons elicit divergent ecological responses among Okinawa's diverse terrestrial habitats, as indicated by increased spatial variability of biological sound production (biophony) and individual species detections. This suggests that soniferous communities are capable of a diversity of different responses to typhoons. That is, spatial insurance effects among local ecological communities provide resilience to typhoons at the landscape scale. Even though site‐level typhoon impacts on soundscapes and bird detections were not particularly strong, monitoring at scale with high temporal resolution across a broad spatial extent nevertheless enabled detection of spatial heterogeneity in typhoon responses. Further, species‐level responses mirrored those of acoustic indices, underscoring the utility of such indices for revealing insight into fundamental questions concerning disturbance and stability. Our findings demonstrate the significant potential of landscape‐scale acoustic sensor networks to capture the understudied ecological impacts of unpredictable extreme weather events. [ABSTRACT FROM AUTHOR]

Published

2024

15. Climate change accelerates ecosystem restoration in the mountain forests of Central Europe.

Author

Dollinger, Christina, Rammer, Werner, and Seidl, Rupert

Subjects

*FOREST restoration, *CLIMATE change, *NORWAY spruce, *FOREST management, *MOUNTAIN soils, *SILVER fir, *TREE planting

Abstract

Restoring degraded forest ecosystems is an important element in the ongoing challenge to sustain the integrity and functioning of the biosphere. However, the evaluation of restoration success is hampered by long lead times of management measures in forests. Moreover, forest change is accelerating also in the absence of management because of ongoing climate change. Yet, because a counterfactual is frequently missing, it remains unclear whether restoration measures are aided or impeded by climate change.Here, we analysed the pace and success of forest restoration under climate change, combining field data and simulation modelling. We focused on the management zone of Berchtesgaden National Park (BGNP), Germany, where restoration aims to restore homogeneous Norway spruce (Picea abies) forests to structurally diverse mixed mountain forests. We evaluated three alternative restoration strategies: Two active strategies focused on planting the currently underrepresented silver fir (Abies alba) and European beech (Fagus sylvatica) but differing in the creation of gap‐cuts, and a third passive restoration strategy without interventions. Strategies were simulated with the forest landscape model iLand from 2020 to 2100 under different climate scenarios (historic, RCP 2.6, 4.5, and 8.5).The forests of BGNP developed into structurally diverse and mixed forests under all evaluated management strategies, and differences between active and passive restoration were generally small. While restoration goals for forest structure were largely met by 2100, forest composition remained far from target in all strategies. Climate change aided restoration by significantly increasing the prevalence of silver fir and European beech (+104.2% to +258.6%). Field data on short‐term restoration effects were in line with simulated long‐term trajectories.Synthesis and applications: We here show that forest restoration efforts in Central European mountain forests will likely be accelerated by climate change. Nonetheless, the slow pace of restoration underscores the need for taking action. Our study highlights that active restoration measures such as tree planting can bring the system closer to restoration targets. However, it also demonstrates that passive restoration (no intervention) is a viable option for management, highlighting the need to evaluate restoration measures against the counterfactual of a no intervention strategy. [ABSTRACT FROM AUTHOR]

Published

2023

16. From land to water : the impacts of forest disturbances on carbon cycling in northern catchments

Author

Woodman, Samuel Grant and Tanentzap, Andrew

Subjects

aquatic ecosystems, boreal forest, carbon fluxes, Climate change, disturbance ecology, terrestrial aquatic linkages

Abstract

Boreal forests hold 32% of the world's terrestrial organic matter and are continually disturbed by biotic and abiotic events. These disturbances are especially important since they facilitate the redistribution of nutrients within and between ecosystems, which can alter resource use and productivity. Yet how various types of disturbances, both individually and in combination, impact the overall resource balance of northern forests remains poorly understood. This thesis aims to advance our understanding of forest disturbances as drivers of forest resource balances, primarily through shifts in carbon, to better facilitate management of forests under climate change. Chapter 1 reviews current knowledge on forest disturbances and cross- ecosystem linkages. It also provides a summary of current gaps in our understanding of disturbances as drivers of forest function and possible downstream effects. Chapter 2 explores how disturbance history influences long-term carbon balance in boreal forests. Theory predicts that disturbances will increase with climate change but how the order and timing of multiple disturbance events will impact ecosystem function remains unresolved. Chapter 3 extends our understanding of forest carbon balance by asking how different disturbance types change the phenology and surface reflectance of boreal forests. Understanding how single disturbance events change growing season length and radiative forcing of forests can help predict potential feedbacks of forest health on climate warming. Chapter 4 tests how outbreaks of defoliating insects alter biogeochemical cycling from land to receiving waters through the consumption of foliage and subsequent release of nutrient-rich waste. Forests typically provide a pulse of nutrients to nearby waters in autumn when leaves are shed but insects disrupt this pattern by changing the timing, quantity, and quality of resource transfers. Chapter 5 traces terrestrial nutrients within lakes and asks if they can promote productivity in zooplankton communities. Finally, Chapter 6 discusses the main findings of the thesis and ends with possible directions for future research.

Published

2022

17. The resistance of Georgia coastal marshes to hurricanes

Author

Rachel S. Smith, Steven C. Pennings, Merryl Alber, Christopher Craft, and James E. Byers

Subjects

climate change, coastal protection, disturbance ecology, GCE‐LTER, resilience, salt marshes, Ecology, QH540-549.5

Abstract

Abstract Ecosystems vary broadly in their responses to disturbance, ranging from highly impacted to resilient or resistant. We conducted a large‐scale analysis of hurricane disturbance effects on coastal marshes by examining 20 years of data from 10 sites covering 100,000 ha at the Georgia Coastal Ecosystems Long‐Term Ecological Research site distributed across gradients of salinity and proximity to the ocean. We analyzed the impacts of Hurricanes Matthew (in 2016) and Irma (in 2017) on marsh biota (plants, crabs, and snails) and physical attributes (erosion, wrack deposition, and sedimentation). We compared these variables prior to the storms (2000–2015) to years with storms (2016, 2017) to those after the storms (2018–2020). Hurricanes generated storm surges that increased water depth and salinity of oligotrophic areas for up to 48 h. Biological variables in the marsh showed few effects of the hurricanes. The only physical variable affected was creek bank slumping; however, slumping had already increased a year before the hurricanes, suggesting that slumping could have a different cause. Thus, our study uncovered only minor, ephemeral impacts on Georgia coastal marshes, highlighting their resistance to hurricane disturbance of the lower magnitude that typically confronts this region of coastline.

Published

2024

18. Fire severity drives understory community dynamics and the recovery of culturally significant plants

Author

Sarah Dickson‐Hoyle, St̓uxwtéws (Bonaparte First Nation), Skeetchestn Natural Resources Corporation, Arial Eatherton, Jennifer N. Baron, Florencia Tiribelli, and Lori D. Daniels

Subjects

British Columbia, disturbance ecology, ethnobotany, fire regime, Indigenous fire stewardship, megafire, Ecology, QH540-549.5

Abstract

Abstract Anthropogenic influences are altering fire regimes worldwide, resulting in an increase in the size and severity of wildfires. Simultaneously, throughout western North America, there is increasing recognition of the important role of Indigenous fire stewardship in shaping historical fire regimes and fire‐adapted ecosystems. However, there is limited understanding of how ecosystems are affected by or recover from contemporary “megafires,” particularly in terms of understory plant communities that are critical to both biodiversity and Indigenous cultures. To address this gap, our collaborative study, in partnership with Secwépemc First Nations, examined understory community recovery following a large, mixed‐severity wildfire that burned in the dry and mesic conifer forests of British Columbia, Canada, with a focus on plants of high cultural significance to Secwépemc communities. To measure the effect of a continuous gradient of fire severity across forest types, we conducted field assessments of fire severity and sampled understory plants 4 years postfire. We found that native species richness and richness of species of high cultural significance were lowest in areas that burned at high severity, with distinct compositional differences between unburned areas and those that burned at high severity. These findings were consistent across forest types characterized by distinct historical fire regimes. In contrast, richness of exotic species increased with increasing fire severity in the dominant montane interior Douglas‐fir forests, with exotic species closely associated with areas that burned at high severity. Our study indicates that recent megafires may be pushing ecosystems outside their historical range of variability, with negative implications for ecosystem recovery and cultural use across these fire‐affected landscapes. We also found consistently higher plant diversity, and both native and cultural species richness, in subalpine forests. Collectively, our results provide strong evidence of the ecological and cultural significance of low‐ to moderate‐severity fire and subalpine forests, and the longstanding and ongoing role of Indigenous peoples in shaping these landscapes. As wildfires continue to impact ecosystems and human communities, this study offers novel insights into the recovery of important ecological and cultural values, while highlighting the need to support ethical research collaborations with Indigenous communities and Indigenous‐led revitalization of fire and plant stewardship.

Published

2024

19. Promoting urban ecological resilience through the lens of avian biodiversity

Author

Michael W. D. McCloy, R. Keith Andringa, Terri J. Maness, Jennifer A. Smith, and Jacquelyn K. Grace

Subjects

bird, biodiversity, conservation, disturbance ecology, urban ecology, urban management, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

The significance of urban landscapes in safeguarding biodiversity is often disregarded, even though a considerable amount of conservation focus is directed toward biodiversity hotspots where urban land conversion is happening at the fastest pace. Maintaining biodiversity in urban areas not only benefits the environment, but along with social, economic, and technological factors can increase the stability of urban systems to disturbance, a concept known as “urban resilience”. In this synthesis paper, we explore the ecological dimension of urban resilience and specifically focus on avian biodiversity because birds are easy to observe, relatively abundant, and can serve as an indicator of the overall health of urban environments. We first examine the concept of ecological resilience and discuss the role of environmental stressors associated with urbanization in the ongoing avian biodiversity crisis. We then provide an overview of characteristics of the urban environment that may promote ecological resilience in birds, and associations between social and economic factors and urban ecological resilience. Finally, we provide recommendations on future research regarding strategies to improve urban ecological resilience and thus, urban resilience as a whole, at the intersections of urban ecology, ecosystem ecology, environmental justice, and urban planning. Since 68% of the world’s population is projected to live in urban areas by 2050, it is imperative that scientists, urban planners, civil engineers, architects, and others consider urban ecological resilience as a dimension of both environmental health and the resilience of cities to future natural and anthropogenic stressors.

Published

2024

20. Models of underlying autotrophic biomass dynamics fit to daily river ecosystem productivity estimates improve understanding of ecosystem disturbance and resilience.

Author

Blaszczak, Joanna R., Yackulic, Charles B., Shriver, Robert K., and Hall, Robert O.

Subjects

*ECOLOGICAL disturbances, *ECOLOGICAL resilience, *BIOMASS, *ECOSYSTEM dynamics, *RIVER channels, *ECOSYSTEMS, *SOLAR stills

Abstract

Directly observing autotrophic biomass at ecologically relevant frequencies is difficult in many ecosystems, hampering our ability to predict productivity through time. Since disturbances can impart distinct reductions in river productivity through time by modifying underlying standing stocks of biomass, mechanistic models fit to productivity time series can infer underlying biomass dynamics. We incorporated biomass dynamics into a river ecosystem productivity model for six rivers to identify disturbance flow thresholds and understand the resilience of primary producers. The magnitude of flood necessary to disturb biomass and thereby reduce ecosystem productivity was consistently lower than the more commonly used disturbance flow threshold of the flood magnitude necessary to mobilize river bed sediment. The estimated daily maximum percent increase in biomass (a proxy for resilience) ranged from 5% to 42% across rivers. Our latent biomass model improves understanding of disturbance thresholds and recovery patterns of autotrophic biomass within river ecosystems. [ABSTRACT FROM AUTHOR]

Published

2023

21. The influence of disturbance scale on the natural recovery of biological soil crusts on the Colorado Plateau.

Author

Jech, Sierra D., Havrilla, Caroline A., and Barger, Nichole N.

Subjects

CRUST vegetation, COLONIZATION (Ecology), SOIL biology, BIOTIC communities, SOIL erosion

Abstract

Up to 35% of global drylands have experienced degradation due to anthropogenic impacts, including physical disturbances like trampling and soil removal. These physical disturbances can result in the loss of soil communities known as biological soil crusts (biocrusts) and the important functions they provide, such as soil stability and fertility. The reestablishment of biocrust organisms after disturbance is determined bymany factors, including propagule availability, climate, and vascular plant community structure. The role of these factors in natural recovery may be intensified by the extent (or size) of a disturbance. For example, large disturbances can result in reduced propagule availability or enhanced erosion, which impact both the dispersal and establishment of biocrust organisms on disturbed soils, leading to a slower natural recovery. To test how disturbance extent impacts biocrust's natural recovery, we installed four disturbance extents by completely removing biocrust fromthemineral soil in plots ranging from0.01m2 to 1m2 and measured productivity and erosion resistance. We found that small disturbance extents did not differ in chlorophyll a content, total exopolysaccharide content, or soil stability after 1.5 years of natural recovery. However, the concentration of glycocalyx exopolysaccharide was higher in the smallest disturbances after the recovery period. Our results indicate that disturbances <1 m2 in scale recover at similar rates, with soil stability returning to high levels in just a few years after severe disturbance. Our findings align with prior work on biocrust natural recovery in drylands and highlight the opportunity for future work to address (1) cyanobacteria, moss, and lichen propagule dispersal; (2) rates and mechanisms of biocrust succession; and (3) the role of wind or water in determining biocrust colonization patterns as compared to lateral growth. [ABSTRACT FROM AUTHOR]

Published

2023

22. Forest Tent Caterpillar Outbreaks Drive Change in Ant Communities in Boreal Forests.

Author

Caron, Anne-Sophie, Koudji, Essivi Gagnon, Handa, Ira Tanya, Montoro Girona, Miguel, and Despland, Emma

Subjects

ANT communities, TAIGAS, COMMUNITY forests, PREDATION, TEMPERATE forests, ECOLOGICAL disturbances

Abstract

Insect outbreaks are major drivers of natural disturbances in forest ecosystems. Outbreaks can have both direct and indirect effects on the composition of soil arthropod communities through canopy opening, nutrient addition and predator-prey interactions. In this study, we aimed to understand the effects of forest tent caterpillar (Malacosoma disstria; FTC) outbreaks through cascading effects on ant communities in both temperate and boreal forests in Canada. Pitfall traps and Berlese funnels were used to compare the ant communities, as well as the surrounding arthropod communities, between control and outbreak sites in boreal and temperate forests (in Quebec, Canada). Using the Sørensen dissimilarity index, we determined the alpha and beta diversity of the ant community. Other arthropods collected in the traps were counted to evaluate the richness and abundance of potential prey for the ants and other potential predators of the FTC. We used an indicator species analysis to examine the species associated with sites defoliated by the outbreak. In the boreal forest, we found that FTC outbreaks caused decreases in species richness and increases in the evenness of ant communities in defoliated sites. In the boreal forest sites, species composition varied significantly between control and outbreak sites. This pattern was driven in part by the presence of other predators. A similar, but weaker pattern was observed in the temperate forest. We saw no changes in the beta diversity in the boreal forest, but did see a significant decrease in the temperate forest between the outbreak sites and the control sites. Ant species in the boreal forest tended to exhibit a more marked preference for either control or previously defoliated sites than species in the temperate forest. Our study showed that disturbances such as insect outbreaks can drive changes in the ant community. While we saw small effects of outbreaks, manipulation experiments using resource addition could help us validate the mechanisms behind these relationships. [ABSTRACT FROM AUTHOR]

Published

2023

23. Effects of Asynchronous Stressors on the Eastern Oyster (Crassostrea virginica).

Author

Agrawal, Anika and Jurgens, Laura J.

Subjects

AMERICAN oyster, WATER temperature, HIGH temperatures, WATER springs, ECOLOGICAL disturbances

Abstract

Population responses to environmental perturbations can be influenced by stressor timing or asynchrony. Since physiological responses often depend on prior conditioning, responses to extreme events may depend on prior exposure to environmental conditions, which could enhance or erode resilience. Yet there are relatively few studies investigating population responses to extreme events in the context of asynchronous stresses. Most multi-stressor experiments impose them simultaneously, which may sometimes poorly reflect seasonal dynamics in nature. For example, hurricanes typically occur over a broad season and may impact populations pre-conditioned with either mild early-season or elevated late-season water temperatures. In the Atlantic, hurricane season begins in June, following mild spring water temperatures, but continues through summer and autumn months, when water temperatures in some estuaries can reach 32 °C. We used the ecologically and commercially important Eastern oyster (Crassostrea virginica) as a model system, investigating how newly settled oysters responded to hurricane-level low-salinity stress (1 ppt for 10 days) after a month of elevated late summer temperatures (32 °C) versus milder early-season conditions (24 °C) typical of Galveston Bay, TX, USA. Oyster mortality under synchronous thermal and salinity stressors was higher than under asynchronous stressor treatments (46% versus 4%). Additionally, oysters without a prior thermal stress had higher mortality under salinity stress than those with prior elevated temperatures (16% versus 4%). Unlike mortality, growth and metabolism were dependent on individual stressors rather than their timing. Results indicate that incorporating temporal dynamics, rather than simply crossing multiple stressors simultaneously, can have important consequences for our understanding of how disturbances influence populations. [ABSTRACT FROM AUTHOR]

Published

2023

24. Implications of Soil Microbial Community Assembly for Ecosystem Restoration: Patterns, Process, and Potential.

Author

Graham, Emily B. and Knelman, Joseph E.

Subjects

*RESTORATION ecology, *MICROBIAL communities, *MICROBIAL ecology, *ECOLOGICAL disturbances, *BIOTIC communities

Abstract

While it is now widely accepted that microorganisms provide essential functions in restoration ecology, the nature of relationships between microbial community assembly and ecosystem recovery remains unclear. There has been a longstanding challenge to decipher whether microorganisms facilitate or simply follow ecosystem recovery, and evidence for each is mixed at best. We propose that understanding microbial community assembly processes is critical to understanding the role of microorganisms during ecosystem restoration and thus optimizing management strategies. We examine how the connection between environment, community structure, and function is fundamentally underpinned by the processes governing community assembly of these microbial communities. We review important factors to consider in evaluating microbial community structure in the context of ecosystem recovery as revealed in studies of microbial succession: (1) variation in community assembly processes, (2) linkages to ecosystem function, and (3) measurable microbial community attributes. We seek to empower restoration ecology with microbial assembly and successional understandings that can generate actionable insights and vital contexts for ecosystem restoration efforts. [ABSTRACT FROM AUTHOR]

Published

2023

25. Wrack Burial Limits Germination and Establishment of Yellow Flag Iris (Iris pseudacorus L.).

Author

Castillo, Jesús M., Gallego-Tévar, Blanca, and Grewell, Brenda J.

Subjects

GERMINATION, SEEDLINGS, WETLAND management, SALT marshes, ECOLOGICAL disturbances, SEEDS

Abstract

Seed burial under wrack, mats of water-transported plant debris, can limit recruitment of seedlings in wetlands. In a greenhouse experiment, we studied the effects of wrack burial (0, 1, 2, 4, 8 cm depths) on germination and emergence of the macrophyte Iris pseudacorus, native to Europe, Mediterranean Basin, and western Asia, that has invaded wetlands in nearly every global ecozone. We recorded the percentages of germinating, senescent, and quiescent seeds and evaluated seedling establishment and growth relative to substrate environmental variables. Seedling emergence of I. pseudacorus was reduced from >80% in controls without burial to <40% even at minimal wrack depths of 1 cm. Few I. pseudacorus seedlings were able to emerge from wrack burial of up to 8 cm in depth. We also found greater numbers of both quiescent seeds and germinated seeds that did not emerge from wrack burial. Reduced seedling emergence and increased seed quiescence with wrack burial were primarily explained by a reduction in daily temperature variation within the substrate. No senescent seedlings were observed with any depth of wrack burial. In view of our results, the management of I. pseudacorus invasion will be a long-term challenge, requiring continued control due to persistent seeds in wrack-buried seed banks. [ABSTRACT FROM AUTHOR]

Published

2023

26. The global potential of log-driven trees for reconstructing forest ecosystems dynamics

Author

Julie-Pascale Labrecque-Foy and Miguel Montoro Girona

Subjects

dendroecology, disturbance ecology, ecosystem-based forest management, log floating, log driving, paleoecology, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

The composition and structure of modern forest ecosystems result from past and present climate as well as centuries of anthropic and natural disturbances. Concerns related to the integrity and resilience of forests in the context of climate change have led to novel ecosystem-based management methods that require extensive knowledge about the preindustrial state of forests and past disturbance regimes. At the beginning of industrial forest exploitation, waterways were used as the main conduits to transport wood, but the timing and impacts of this log driving remain understudied. Given that an estimated 15% to 50% of log-driven logs sank during their transport, this accumulation of subfossil wood can serve as a proxy tool for reconstructing the dynamics and structure of preindustrial forests and inform modern forest management practices. This review provides a global overview of log driving and highlights the significant value of these submerged logs for disturbance ecology. We demonstrate that log driving was used on most continents, implying that proxy records from subfossil logs may be available from numerous boreal and mountainous regions. Our review is one of the first to illustrate the paleoecological value of log-driving remnants and explain how such a resource provides a valuable tool for understanding past forest ecosystems. Such knowledge is crucial for informing forest management in the face of climate change.

Published

2023

27. The influence of disturbance scale on the natural recovery of biological soil crusts on the Colorado Plateau

Author

Sierra D. Jech, Caroline A. Havrilla, and Nichole N. Barger

Subjects

biological soil crust, scale, natural recovery, Colorado Plateau, disturbance ecology, chlorophyll a, Microbiology, QR1-502

Abstract

Up to 35% of global drylands have experienced degradation due to anthropogenic impacts, including physical disturbances like trampling and soil removal. These physical disturbances can result in the loss of soil communities known as biological soil crusts (biocrusts) and the important functions they provide, such as soil stability and fertility. The reestablishment of biocrust organisms after disturbance is determined by many factors, including propagule availability, climate, and vascular plant community structure. The role of these factors in natural recovery may be intensified by the extent (or size) of a disturbance. For example, large disturbances can result in reduced propagule availability or enhanced erosion, which impact both the dispersal and establishment of biocrust organisms on disturbed soils, leading to a slower natural recovery. To test how disturbance extent impacts biocrust's natural recovery, we installed four disturbance extents by completely removing biocrust from the mineral soil in plots ranging from 0.01 m2 to 1 m2 and measured productivity and erosion resistance. We found that small disturbance extents did not differ in chlorophyll a content, total exopolysaccharide content, or soil stability after 1.5 years of natural recovery. However, the concentration of glycocalyx exopolysaccharide was higher in the smallest disturbances after the recovery period. Our results indicate that disturbances

Published

2023

28. Freshwater discharge disrupts linkages between the environment and estuarine fish community

Author

Dakota M. Lewis and Geoffrey S. Cook

Subjects

Freshwater diversion, Fish community dynamics, Coastal restoration, Structural equation model, Disturbance ecology, Ecology, QH540-549.5

Abstract

Freshwater diversions and damming have altered coastal ecosystems greatly, resulting in fundamental changes in salinity, eutrophication, and ensuing shifts in ecological communities. Recently, efforts to restore water delivery and water quality in coastal systems have increased. To explore the impacts of altered freshwater discharge to a subtropical estuary, here Bayesian structural equation models are used to quantify the relationships among water quality properties, nutrients, and predator (sport) and prey (forage) components of the fish community. During periods of relatively low freshwater input, predatory sport fish and lower trophic level forage fish guild dynamics were tightly coupled with water quality and one another. In this low freshwater discharge system, water quality and nutrients were the most strongly linked components of the system. Conversely, during periods of high-water discharge, there was virtually no link between water quality and sport or forage fish guilds, and the sport fish and forage fish guilds became the most tightly coupled components. Ultimately, freshwater discharge disrupted existing linkages within the broader ecosystem. Based on these results, we expect the restoration of low freshwater flow into the estuary would strengthen the relationship between the fish community and the environment. As restoration of estuaries and rivers continues globally, freshwater delivery to downstream systems will be altered. Following the approach presented here, Bayesian structural equation models can be used to generate insight regarding potential system wide shifts following alteration of freshwater delivery, thereby providing a critically important tool for evaluating management strategies.

Published

2023

29. High‐severity fire drives persistent floristic homogenization in human‐altered forests.

Author

Weeks, JonahMaria, Miller, Jesse E. D., Steel, Zachary L., Batzer, Evan E., and Safford, Hugh D.

Subjects

FOREST fire ecology, FIRE management, EFFECT of fires on plants, FOREST thinning, ECOLOGICAL disturbances, CONIFEROUS forests, PLANT diversity

Abstract

Ecological disturbance regimes across the globe are being altered via direct and indirect human influences. Biodiversity loss at multiple scales can be a direct outcome of these shifts. Fire, especially in dry forests, is an ecological disturbance that is experiencing dramatic changes due to climate change, fire suppression, increased human population in fire‐prone areas, and alterations to vegetation composition and structure. Dry western conifer forests that historically experienced frequent, low‐severity fires are now increasingly burning at high severity. Relatively little work has been done looking at the effects of this novel disturbance type on affected plant communities, and little is known about how these impacts change over time. To fill in these knowledge gaps, we examined a fire that burned in a yellow pine and mixed conifer forest in the central Sierra Nevada in California, USA. We sampled at five time steps across the nine years following the fire (1, 3, 5, 8, and 9 years postfire). We found a generally unimodal relationship between fire severity and plant alpha and gamma diversity, but found that areas that burned at high severity supported progressively lower plant diversity as time since fire increased. Similarly, beta diversity decreased drastically through time for the high‐severity areas, while remaining more static in the other severity classes. The combination of these findings indicates that significant floristic homogenization can result from high‐severity fire in this ecosystem type. We also saw consistently lower diversity in unburned areas in comparison to area burned at low and moderate severity, underlining that both lack of fire and high‐severity fire can have negative impacts on postfire plant diversity. Unburned areas that experienced forest thinning after the first sample year saw an increase in plant diversity over time, suggesting that some—but not all—of the effects of fire on plant diversity can be approximated through forest management. [ABSTRACT FROM AUTHOR]

Published

2023

30. Resilience of a tropical montane pine forest to fire and severe droughts.

Author

Swann, Daniel E. B., Bellingham, Peter J., and Martin, Patrick H.

Subjects

*MOUNTAIN forests, *DROUGHTS, *FOREST fires, *FOREST resilience, *UNDERSTORY plants, *CLOUDINESS, *FIRE management, *VEGETATION dynamics, *DROUGHT management

Abstract

Higher temperatures, declining precipitation, changing cloud cover and increased wildfires threaten tropical montane pine forests by overriding the environmental heterogeneity that typically buffers these systems from catastrophic fires. Severe fires threaten to overwhelm forest resilience and tip this biome into alternate vegetation states.This study focused on long‐term dynamics of montane Pinus occidentalis forests in the Cordillera Central, Dominican Republic after a ~1000 km2 fire in 2005, the largest since 1965. We used long‐term records to investigate climate before and after the fire, and 19‐year dataset of pre‐ and post‐fire vegetation change from a network of 55 permanent plots (20 small 0.05 ha plots and 35 large 0.1 ha plots) established in 1999 to model overstorey and understorey vegetation dynamics.The 2005 fire was synchronized with the most extreme drought in the region in over 60 years. The fire burned from <1600 to >3000 m a.s.l. in elevation across windward and leeward slopes, creating a mosaic of low‐, moderate‐ and high‐severity patches. Lower elevations, leeward slopes and stands with a higher proportion of smaller pine trees all burned at higher severities.Growth rates of trees that survived the fire remained lower than pre‐fire rates 13 years after the fire. The highest post‐fire mortality rates were soon after the fire and in the census immediately following subsequent post‐fire droughts. Post‐fire pine seedling abundance was significantly greater in stands with higher basal area of live canopy trees and significantly reduced by increased shrub abundance in the understorey. Understorey composition recovered rapidly to pre‐fire states in sites affected by low‐ and moderate‐severity fires, but sites affected by high‐severity fires remained dissimilar to pre‐fire composition 13 years after the fire. Even though high‐severity patches had persistently low pine regeneration, 100% of small plots and 96% of large plots had at least one pine sapling or canopy tree recruit by 2018. Shrub taxa survived the fire in higher numbers and recovered to pre‐fire densities much faster than the pine, especially in high‐severity burns.Synthesis. Climate change has increased the likelihood of wildfires in tropical montane pine forests, with long‐lasting effects on vegetation dynamics. However, this biome may prove resilient to increasingly severe fires in the near future, given the ongoing recovery of Pinus occidentalis forests in Hispaniola despite repeated severe droughts. Nevertheless, highly drought‐ and fire‐resistant taxa (e.g. shrubs) may form alternate stable states in drier portions of tropical montane landscapes in the future as droughts and high‐severity fires become more common. [ABSTRACT FROM AUTHOR]

Published

2023

31. Native macrophyte community response to water-level manipulation for an invasive species.

Author

Beal, Maxwell R.W. and Olson, Erik R.

Subjects

*EURASIAN watermilfoil, *WATER levels, *AQUATIC plants, *ECOLOGICAL disturbances, *AQUATIC ecology, *POTAMOGETON

Abstract

Disturbance regimes related to water level fluctuation play an important role in the structuring of aquatic macrophyte communities. In managed systems, winter water level drawdowns have shown promise in controlling populations of nuisance macrophytes, however, drawdowns may have unintended negative consequences on erosion, fauna, and non-target plant species. The Chippewa Flowage, located in Sawyer County, WI, has implemented targeted winter water level drawdowns with the goal of reducing nuisance levels of Myriophyllum spicatum. To evaluate the effects of water level drawdowns on Myriophyllum spicatum and the native macrophyte community, we conducted repeated full lake surveys of aquatic macrophytes at 2018 points under drawdown and normal water level management in 2005/06, 2015, and 2017. We supplemented these efforts with downscaled surveys in 2007, 2010, and 2016. Surveys revealed a statistically significant decline in both Myriophyllum spicatum occurrence and abundance, and average macrophyte abundance during active drawdown management. Kernel distributions of change in point-specific c-value between the two time periods showed a significant increase under drawdown conditions, and a decrease under normal management (D = 0.41, P ≤0.0001). Drawdown management appeared to successfully control Myriophyllum spicatum abundance and allowed for improvements in the floristic quality of the macrophyte community but resulted in reduced macrophyte abundance overall. [ABSTRACT FROM AUTHOR]

Published

2024

32. Disentangling disturbances with nested hierarchy classification of Mediterranean garrigue/maquis shrub community compositions through remote sensing and GIS.

Author

Manspeizer, N. and Karnieli, A.

Subjects

SPATIAL data structures, ECOLOGICAL disturbances, LAND degradation, LAND cover, FEATURE extraction

Abstract

The paper presents an innovative nested hierarchical classification (NHC) method to disentangle landscape patterns between anthropogenic and natural drivers. This approach is motivated by the research need to differentiate between phytogeographic climate signals in vegetation communities based on these drivers. The method utilizes the non-conformity between spatial structures and granularity in remote sensing imagery with a twofold objective: (1) differentiate features within vegetation community compositions; and (2) aggregate these features with structural causal explanations. A sub-regional study in the southern Levant (Israel) is presented in which long-term ancient land use (LTA-LU) over 2300 years is juxtaposed with variable landscape patterns in modern semi-arid shrub communities. The modern land-cover is classified into three nestable classification levels using spaceborne, airborne, and unmanned aerial vehicle (UAV) imagery. NHC uses aggregation between the classification levels and the LTA-LU through a "bin sorting" technique based on the granularity and data type of the spatial structure. This technique enables the statistical feature extraction of vegetation community parts for association with their structural cause. The features identified indicate that areas of more intense LTA-LU are affected by plagioclimax attributed to industrial monoculture during the Hellenistic, Byzantine, and Ottoman periods. That form of land degradation, caused by long-term disturbance, results in substrates and vegetation compositions that cannot develop and recover to a climax state. [Display omitted] • Nested hierarchical land-cover classification shows plagioclimax in shrub landscape • Granularity is dominant factor to differentiate features in vegetation communities • Vertical land-use structure explains nested spatial structure through aggregation • Anthropogenically and naturally driven landscape patterns are disentangled [ABSTRACT FROM AUTHOR]

Published

2024

33. The Luquillo Experimental Forest: A Neotropical Example of the Interaction Between Forest Conservation and Long-Term Ecological Research

Author

Lugo, Ariel E., Buchwald, Jed Z., Series Editor, Waide, Robert B., editor, and Kingsland, Sharon E., editor

Published

2021

34. High‐severity fire drives persistent floristic homogenization in human‐altered forests

Author

JonahMaria Weeks, Jesse E. D. Miller, Zachary L. Steel, Evan E. Batzer, and Hugh D. Safford

Subjects

biotic homogenization, disturbance ecology, forest biology, high‐severity fire, plant diversity, Ecology, QH540-549.5

Abstract

Abstract Ecological disturbance regimes across the globe are being altered via direct and indirect human influences. Biodiversity loss at multiple scales can be a direct outcome of these shifts. Fire, especially in dry forests, is an ecological disturbance that is experiencing dramatic changes due to climate change, fire suppression, increased human population in fire‐prone areas, and alterations to vegetation composition and structure. Dry western conifer forests that historically experienced frequent, low‐severity fires are now increasingly burning at high severity. Relatively little work has been done looking at the effects of this novel disturbance type on affected plant communities, and little is known about how these impacts change over time. To fill in these knowledge gaps, we examined a fire that burned in a yellow pine and mixed conifer forest in the central Sierra Nevada in California, USA. We sampled at five time steps across the nine years following the fire (1, 3, 5, 8, and 9 years postfire). We found a generally unimodal relationship between fire severity and plant alpha and gamma diversity, but found that areas that burned at high severity supported progressively lower plant diversity as time since fire increased. Similarly, beta diversity decreased drastically through time for the high‐severity areas, while remaining more static in the other severity classes. The combination of these findings indicates that significant floristic homogenization can result from high‐severity fire in this ecosystem type. We also saw consistently lower diversity in unburned areas in comparison to area burned at low and moderate severity, underlining that both lack of fire and high‐severity fire can have negative impacts on postfire plant diversity. Unburned areas that experienced forest thinning after the first sample year saw an increase in plant diversity over time, suggesting that some—but not all—of the effects of fire on plant diversity can be approximated through forest management.

Published

2023

35. Simulated hurricane‐induced changes in light and nutrient regimes change seedling performance in Everglades forest‐dominant species

Author

Jeremy L. May and Steven F. Oberbauer

Subjects

Bursera simaruba, disturbance ecology, forest communities, Hurricane, nutrient manipulation, Pinus elliottii var. densa, Ecology, QH540-549.5

Abstract

Abstract Wind damage from cyclones can devastate the forest canopy, altering environmental conditions in the understory that affect seedling growth and plant community regeneration. To investigate the impact of hurricane‐induced increases in light and soil nutrients as a result of canopy defoliation, we conducted a two‐way factorial light and nutrient manipulation in a shadehouse experiment. We measured seedling growth of the dominant canopy species in the four Everglades forest communities: pine rocklands (Pinus elliottii var densa), cypress domes (Taxodium distichum), hardwood hammocks, and tree islands (Quercus virginiana and Bursera simaruba). Light levels were full sun and 50% shade, and nutrient levels coupled with an additional set of individuals that were subjected to a treatment mimicking the sudden effects of canopy opening from hurricane‐induced defoliation and the corresponding nutrient pulse. Seedlings were measured weekly for height growth and photosynthesis, with seedlings being harvested after 16 weeks for biomass, leaf area, and leaf tissue N and 13C isotope ratio. Growth rates and biomass accumulation responded more to differences in soil nutrients than differences in light availability, with largest individuals being in the high nutrient treatments. For B. simaruba and P. elliottii, the highest photosynthetic rates occurred in the high light, high nutrient treatment, while T. distichum and Q. virginiana photosynthetic rates were highest in low light, high nutrient treatment. Tissue biomass allocation patterns remained similar across treatments, except for Q. virginiana, which altered above‐ and belowground biomass allocation to increase capture of limiting soil and light resources. In response to the hurricane simulation treatment, height growth increased rapidly for Q. virginiana and B. simaruba, with nonsignificant increases for the other two species. We show here that ultimately, hurricane‐adapted, tropical species may be more likely to recolonize the forest canopy following a large‐scale hurricane disturbance.

Published

2021

36. Analysing gap dynamics in forest canopies with landscape metrics based on multi-temporal airborne laser scanning surveys – A pilot study

Author

Niklas Hagemann, Paul Magdon, Sebastian Schnell, and Arne Pommerening

Subjects

Disturbance ecology, Remote sensing, Airborne laser scanning data (ALS), Boolean model, Random set statistics, Krycklan, Ecology, QH540-549.5

Abstract

For a long time gaps or openings in the forest canopy have been of considerable interest to forest ecologists and to forest managers. In the context of disturbances induced by climate change, canopy gap dynamics are of particular interest, since they can indicate imminent damage to forest resources and irreversible trends such as forest decline. Here, statistical significance is crucial for establishing whether any imminent large-scale threat to the sustainability of forest resources exists. In order to be able to assess significance, we applied the Boolean model, a null or reference model from random set statistics. The Boolean model served as a theoretical benchmark for testing the significance of the observed trends in forest canopy gap dynamics. As a pilot study we analysed airborne laser scan (ALS) data collected in the Krycklan catchment area (Northern Sweden) in 2006 and 2015. The data were analysed using eight different landscape metrics. Despite the moderate resolution of our ALS data the landscape metrics have proved to be useful tools for monitoring canopy gap dynamics of forest ecosystems. The Boolean model has been successful in ascertaining statistical significance and the model parameters indicated important trends. In the Krycklan catchment area, there was no significant trend of canopy gap dynamics indicating any harmful development between 2006 and 2015. On the contrary, we found evidence for gaps closing in and gap locations becoming more random whilst the canopy cover increased between the two survey years.

Published

2022

37. A possible role for river restoration enhancing biodiversity through interaction with wildfire.

Author

Pugh, Brittany E., Colley, Megan, Dugdale, Stephen J., Edwards, Patrick, Flitcroft, Rebecca, Holz, Andrés, Johnson, Matthew, Mariani, Michela, Means‐Brous, Mickey, Meyer, Kate, Moffett, Kevan B., Renan, Lisa, Schrodt, Franziska, Thorne, Colin, Valman, Samuel, Wijayratne, Upekala, and Field, Richard

Subjects

*WILDFIRE prevention, *STREAM restoration, *WILDFIRES, *FLOODPLAINS, *BIODIVERSITY, *FLOOD control, *WETLAND biodiversity

Abstract

Background: Historically, wildfire regimes produced important landscape‐scale disturbances in many regions globally. The "pyrodiversity begets biodiversity" hypothesis suggests that wildfires that generate temporally and spatially heterogeneous mosaics of wildfire severity and post‐burn recovery enhance biodiversity at landscape scales. However, river management has often led to channel incision that disconnects rivers from their floodplains, desiccating floodplain habitats and depleting groundwater. In conjunction with predicted increases in frequency, intensity and extent of wildfires under climate change, this increases the likelihood of deep, uniform burns that reduce biodiversity. Predicted synergy of river restoration and biodiversity increase: Recent focus on floodplain re‐wetting and restoration of successional floodplain habitat mosaics, developed for river management and flood prevention, could reduce wildfire intensity in restored floodplains and make the burns less uniform, increasing climate‐change resilience; an important synergy. According to theory, this would also enhance biodiversity. However, this possibility is yet to be tested empirically. We suggest potential research avenues. Illustration and future directions: We illustrate the interaction between wildfire and river restoration using a restoration project in Oregon, USA. A project to reconnect the South Fork McKenzie River and its floodplain suffered a major burn ("Holiday Farm" wildfire, 2020), offering a rare opportunity to study the interaction between this type of river restoration and wildfire; specifically, the predicted increases in pyrodiversity and biodiversity. Given the importance of river and wetland ecosystems for biodiversity globally, a research priority should be to increase our understanding of potential mechanisms for a "triple win" of flood reduction, wildfire alleviation and biodiversity promotion. [ABSTRACT FROM AUTHOR]

Published

2022

38. Retranslating Resilience Theory in Archaeology.

Author

Løvschal, Mette

Subjects

*HISTORICAL archaeology, *ARCHAEOLOGY, *GLOBAL warming, *MASS extinctions, *CONCEPTUAL history, *SYSTEMS theory, *ECOLOGICAL disturbances

Abstract

The environmental crisis is rendering increasingly large areas of the planet inhospitable. As it reaches a tipping point, global warming is initiating cascades of ecological transformation, mass extinction, and irreversible damage—all of them increasingly beyond human control. To mitigate this situation, we need intellectual tools that can call on both the sciences and the humanities and spark integrated approaches that address deep-time scales. Archaeology can make a substantial contribution here. This article reviews the merits and limitations of the resilience concept in archaeology. Despite its ever-increasing relevance, resilience is still frequently understood within the framework of positivist approaches and branches of systems thinking that cannot capture our unfolding predicament and pay too little attention to the embodied historical asymmetries between more-than-human social worlds. This review identifies the potential for reformulations of resilience theory and its attendant concepts within a less positivistic and human-centered conceptual register. New translations of resilience in archaeology pave the way for more nuanced approaches to concepts of history and their sociopolitical use, as well as alternative time dynamics of historical change. [ABSTRACT FROM AUTHOR]

Published

2022

39. Habitat availability alters the relative risk of a bovine tuberculosis breakdown in the aftermath of a commercial forest clearfell disturbance.

Author

Murphy, Kilian J., Morera‐Pujol, Virginia, Ryan, Eoin, Byrne, Andrew W., Breslin, Philip, and Ciuti, Simone

Subjects

*TUBERCULOSIS in cattle, *ECOLOGICAL disturbances, *ZOONOSES, *WILDLIFE diseases, *FARM risks, *LANDSCAPE changes

Abstract

Human modification of landscapes and associated disturbances may facilitate the emergence and spread of zoonotic diseases. Policy‐makers need better understanding of the link between anthropogenic disturbances and wildlife disease hosts at the interface of human society and the natural environment, for example agriculture, forestry and aquaculture. Empirical research is strongly needed for the control of novel zoonoses which might emerge, as well as the management of existing zoonoses with significant economic repercussions such as bovine tuberculosis (bTB).We aimed to examine the link between ecological disturbance and relative bTB risk using Ireland as a case study. We analysed clearfell forestry operations and assessed bTB breakdowns within cattle farms across different spatio‐temporal scales over multiple years, examining how ecological conditions may modulate this relationship using conditional logistic regression models.We found a significant effect of the interaction between the extent of clearfell forestry removed and the extent of natural grassland and mixed forestry present on relative bTB risk. This interaction was dynamic, leading to an increase or decrease of the relative bTB risk depending on where (between 2 and 6 km from the farm) and when (between 0 and 36 months prior to the bTB outbreak) the clearfell operations occurred.Our study provides empirical evidence of the link between mechanised forestry operations and fluctuating relative bTB risk in cattle farms, although the mechanism behind it is yet to be elucidated. Given our data, we hypothesise that wildlife hosts may abandon the area subjected to clearfell when disturbance is highest (during active operations and shortly afterward) but are subsequently attracted back to the site as they regenerate, potentially affecting the contact rates with livestock and thus, relative bTB risk.Synthesis and applications. Our analysis demonstrates that landscape modification is correlated with a change in relative bovine tuberculosis (bTB) risk that is dynamic in time and space. Understanding that the effect of landscape change is transient allows managers to understand the risk for neighbouring farms and inform policy accordingly. Landscape‐level studies are necessary to unveil subtle‐ecological processes, shifting research and management efforts away from cattle herd‐centric policy and toward macroecological surveillance of wildlife hosts and longitudinal assessment of bTB risk. [ABSTRACT FROM AUTHOR]

Published

2022

40. Effects of river infrastructure, dredged material placement, and altered hydrogeomorphic processes: The stress ecology of floodplain wetlands and associated fish communities.

Author

Diefenderfer HL, Borde AB, Cullinan VI, Johnson LL, and Roegner GC

Abstract

Recognition of the habitat values of coastal and floodplain wetlands has inspired research and engineering to restore biological functions after widespread species declines. However, the restoration and management of tidal river floodplains requires a more complete understanding of anthropogenic stressors on hydrogeomorphology and ecological processes. River floodplains near the ocean are affected by localized diking and dredging as well as basin-wide stressors such as dams. We evaluated the effects of stressors versus spatial position, both longitudinal and lateral to the mainstem, using physical and biological response variables in river floodplain wetlands. We categorized historical and modern stressors on the hydrogeomorphic regime of the lower Columbia River and estuary, northeast Pacific coast, including basin-scale management and local impacts. Using this categorization, we analyzed 44 attributes using field-collected data from 50 floodplain wetlands. Attributes represent channels, floods, plant communities, and fish communities. Here we show that plant and fish communities are stratified by position along the estuarine-riverine gradient, in contrast to physical habitat characteristics, which are stratified by stressors on hydrogeomorphic regimes and in some cases the lateral distance from the mainstem river on tributaries. Spatial position relative to water-level dynamics and salinity more strongly affect the biota than does stressor history. Stressor effects were greatest on the geomorphology observed in formerly diked, now reconnected wetlands and in wetlands with a history of dredged material placement; historically diked sites had anomalously deep channels with larger cross-sectional areas while sites with dredged material had shallow channels and lower levels of organic carbon in sediment. In wetlands subject only to landscape-scale stressors such as flow alterations by dams, organic carbon levels were higher. These findings provide natural resource managers with opportunities to enhance similarity to natural conditions and better understand future wetland evolution from different baselines of stressor history and river position., (Copyright © 2024. Published by Elsevier B.V.)

Published

2024

41. Forest Tent Caterpillar Outbreaks Drive Change in Ant Communities in Boreal Forests

Author

Anne-Sophie Caron, Essivi Gagnon Koudji, Ira Tanya Handa, Miguel Montoro Girona, and Emma Despland

Subjects

ant community, disturbance ecology, forest ecology, insect outbreaks, natural disturbances, Plant ecology, QK900-989

Abstract

Insect outbreaks are major drivers of natural disturbances in forest ecosystems. Outbreaks can have both direct and indirect effects on the composition of soil arthropod communities through canopy opening, nutrient addition and predator-prey interactions. In this study, we aimed to understand the effects of forest tent caterpillar (Malacosoma disstria; FTC) outbreaks through cascading effects on ant communities in both temperate and boreal forests in Canada. Pitfall traps and Berlese funnels were used to compare the ant communities, as well as the surrounding arthropod communities, between control and outbreak sites in boreal and temperate forests (in Quebec, Canada). Using the Sørensen dissimilarity index, we determined the alpha and beta diversity of the ant community. Other arthropods collected in the traps were counted to evaluate the richness and abundance of potential prey for the ants and other potential predators of the FTC. We used an indicator species analysis to examine the species associated with sites defoliated by the outbreak. In the boreal forest, we found that FTC outbreaks caused decreases in species richness and increases in the evenness of ant communities in defoliated sites. In the boreal forest sites, species composition varied significantly between control and outbreak sites. This pattern was driven in part by the presence of other predators. A similar, but weaker pattern was observed in the temperate forest. We saw no changes in the beta diversity in the boreal forest, but did see a significant decrease in the temperate forest between the outbreak sites and the control sites. Ant species in the boreal forest tended to exhibit a more marked preference for either control or previously defoliated sites than species in the temperate forest. Our study showed that disturbances such as insect outbreaks can drive changes in the ant community. While we saw small effects of outbreaks, manipulation experiments using resource addition could help us validate the mechanisms behind these relationships.

Published

2023

42. Modern Pyromes: Biogeographical Patterns of Fire Characteristics across the Contiguous United States.

Author

Cattau, Megan E., Mahood, Adam L., Balch, Jennifer K., and Wessman, Carol A.

Subjects

*FIRE management, *FIRE, *K-means clustering, *PUBLIC records, *FOREST fires, *HIERARCHICAL clustering (Cluster analysis), *CONUS, *ECOLOGICAL disturbances

Abstract

In recent decades, wildfires in many areas of the United States (U.S.) have become larger and more frequent with increasing anthropogenic pressure, including interactions between climate, land-use change, and human ignitions. We aimed to characterize the spatiotemporal patterns of contemporary fire characteristics across the contiguous United States (CONUS). We derived fire variables based on frequency, fire radiative power (FRP), event size, burned area, and season length from satellite-derived fire products and a government records database on a 50 km grid (1984–2020). We used k-means clustering to create a hierarchical classification scheme of areas with relatively homogeneous fire characteristics, or modern 'pyromes,' and report on the model with eight major pyromes. Human ignition pressure provides a key explanation for the East-West patterns of fire characteristics. Human-dominated pyromes (85% mean anthropogenic ignitions), with moderate fire size, area burned, and intensity, covered 59% of CONUS, primarily in the East and East Central. Physically dominated pyromes (47% mean anthropogenic ignitions) characterized by relatively large (average 439 mean annual ha per 50 km pixel) and intense (average 75 mean annual megawatts/pixel) fires occurred in 14% of CONUS, primarily in the West and West Central. The percent of anthropogenic ignitions increased over time in all pyromes (0.5–1.7% annually). Higher fire frequency was related to smaller events and lower FRP, and these relationships were moderated by vegetation, climate, and ignition type. Notably, a spatial mismatch between our derived modern pyromes and both ecoregions and historical fire regimes suggests other major drivers for modern U.S. fire patterns than vegetation-based classification systems. This effort to delineate modern U.S. pyromes based on fire observations provides a national-scale framework of contemporary fire regions and may help elucidate patterns of change in an uncertain future. [ABSTRACT FROM AUTHOR]

Published

2022

43. Modeled interactions of mountain pine beetle and wildland fire under future climate and management scenarios for three western US landscapes.

Author

Keane, Robert E., Bentz, Barbara, Holsinger, Lisa M., Saab, Victoria A., and Loehman, Rachel

Subjects

FIRE management, FUEL reduction (Wildfire prevention), MOUNTAIN pine beetle, WILDFIRES, FOREST fires, FIREFIGHTING, LANDSCAPES, CLIMATE change

Abstract

Copyright of Fire Ecology is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2022

44. Livestock grazing to maintain habitat of a critically endangered grassland bird: Is grazer species important?

Author

Nugent, Daniel T., Baker‐Gabb, David J., Leonard, Steve W. J., and Morgan, John W.

Subjects

GRASSLAND birds, RARE birds, HABITATS, GRAZING, BIODIVERSITY conservation, CONSERVATION projects (Natural resources)

Abstract

Livestock grazing is an important management tool for biodiversity conservation in many native grasslands across the globe. Understanding how different grazing species interact with their environment is integral to achieving conservation goals. In the semiarid grasslands of Australia, grazing by sheep or cattle is used to manipulate vegetation structure to suit the habitat needs of a globally unique, critically endangered grassland bird, the plains‐wanderer Pedionomus torquatus. However, there has been no investigation of whether sheep and cattle differ in their effects on plains‐wanderer habitat and, therefore, it is unknown if these grazers are substitutable as a management tool. Using a grazing experiment in native grasslands over 3 years, we determined the effects of grazer type (sheep, cattle) on occurrence and vocal activity of plains‐wanderer, vegetation structure and composition, and food availability. We also examined grazer effects on encounter rates of other grassland birds. Plains‐wanderer breeding activity was inferred from vocalization rates captured by bioacoustic recorders. Spotlighting was used to measure encounter rates of other grassland birds. We found that different grazers altered the structure of the habitat. Grasslands grazed by cattle were typically more open, less variable, and lacked patches of dense vegetation relative to those grazed by sheep. Grazer type did not influence the likelihood of plains‐wanderer occurrence, but it did interact with year of survey to affect breeding activity. The number of days with one or more calls significantly increased at sheep grazed sites in year‐3, which coincided with enduring drought conditions. Similarly, grazer effects on encounter rate of all birds, bird species richness, and Australasian pipit Anthus novaeseelandiae were different between years. Dense vegetation specialists (such as stubble quail Coturnix pectoralis) were positively associated with grasslands grazed by sheep. As a habitat management tool, sheep or cattle grazing are useful when the goal is to support an open grassland structure for the plains‐wanderer. However, their substitutability is likely to be dependent upon climate. We caution that a loss of dense vegetation in grasslands grazed by cattle during drought could limit the availability of optimal habitat for the plains‐wanderer and habitat for other grassland birds. [ABSTRACT FROM AUTHOR]

Published

2022

45. Legacy of pre‐eruption vegetation affects ground‐dwelling arthropod communities after different types of volcanic disturbance

Author

Kyohei Iida, Daisuke Hayasaka, Yuya Suzuki, Taizo Uchida, Takuo Sawahata, and Koya Hashimoto

Subjects

community resilience, disturbance ecology, ecological succession, large natural disturbance, legacy effects, volcanic island, Ecology, QH540-549.5

Abstract

Abstract Volcanic eruptions are one of the largest natural disturbances and are followed by the establishment of novel plant and animal communities in terrestrial ecosystems. However, the role of pre‐eruption vegetation in the establishment of arthropod communities after volcanic disturbances is currently unknown. Here, we asked whether the legacy of pre‐eruption vegetation mediates the community structure of ground‐dwelling arthropods after volcanic disturbances. The 2015 eruption in Kuchinoerabu‐jima Island, southwest Japan, caused two types of disturbances [a pyroclastic flow and a lahar (i.e., mudflow)] in three types of forests (broad‐leaved, black pine, and cedar). We hypothesized that pre‐eruption vegetation would influence the community structure of ground‐dwelling arthropods after the disturbance, and we expected that these effects from vegetation would be more prevalent for the less severe disturbances. The total abundance of ground‐dwelling arthropods decreased more in the lahar than the pyroclastic flow, and arthropod species composition showed a greater change after the lahar. These findings suggest that the lahar disturbance was more severe than the pyroclastic disturbance. Contrary to expectations, the difference in the arthropod species composition among the vegetation types was greatest after the lahar. After the pyroclastic flow, leaf litter remained to some degree with all the vegetation types. After the lahar disturbance, however, although the litter in the cedar forests remained, the litter disappeared completely from broad‐leaved and black pine forests. The disappearance of litter from these two forest types after the lahar may be responsible for the greater difference in arthropod species composition among the vegetation types. This study shows that the legacy effects of pre‐eruption vegetation on terrestrial arthropod communities after volcanic disturbance were different depending on the type of disturbance. Focusing on the role of pre‐eruption biotic factors would contribute to a better understanding of the recovery processes of terrestrial ecosystems after large natural disturbances.

Published

2021

46. Wrack Burial Limits Germination and Establishment of Yellow Flag Iris (Iris pseudacorus L.)

Author

Jesús M. Castillo, Blanca Gallego-Tévar, and Brenda J. Grewell

Subjects

alien invasive species, disturbance ecology, plant invasions, seed quiescence, seedling emergence, tidal marsh, Botany, QK1-989

Abstract

Seed burial under wrack, mats of water-transported plant debris, can limit recruitment of seedlings in wetlands. In a greenhouse experiment, we studied the effects of wrack burial (0, 1, 2, 4, 8 cm depths) on germination and emergence of the macrophyte Iris pseudacorus, native to Europe, Mediterranean Basin, and western Asia, that has invaded wetlands in nearly every global ecozone. We recorded the percentages of germinating, senescent, and quiescent seeds and evaluated seedling establishment and growth relative to substrate environmental variables. Seedling emergence of I. pseudacorus was reduced from >80% in controls without burial to I. pseudacorus seedlings were able to emerge from wrack burial of up to 8 cm in depth. We also found greater numbers of both quiescent seeds and germinated seeds that did not emerge from wrack burial. Reduced seedling emergence and increased seed quiescence with wrack burial were primarily explained by a reduction in daily temperature variation within the substrate. No senescent seedlings were observed with any depth of wrack burial. In view of our results, the management of I. pseudacorus invasion will be a long-term challenge, requiring continued control due to persistent seeds in wrack-buried seed banks.

Published

2023

47. Ecological Impact of Forest Trails in Khadimnagar National Park, Sylhet, Bangladesh.

Author

Rahman, Minhajur, Mohammed, and Datta, Anup

Subjects

FOREST management, ECOLOGY, FOREST regeneration, AGRICULTURAL industries, FORESTS & forestry

Abstract

A forest trail is a fragmentation structure in the forest which is of great importance when it comes to the management and recreation facilities of the forest. These kinds of transportation networks within the forest influence the balance of the forest ecosystem, which makes it imperative to address the effect of forest trails. In this study, we evaluated the effect of forest trails in Khadimnagar National Park, Sylhet, Bangladesh. Data on trees, tree regeneration, canopy cover, and litter layer depth were recorded on 40 main plots and 80 micro plots, which were laid on transect lines at 20 points, at 5 m and 15 m sampling distances from the trail. The Shannon diversity index of both tree and tree regeneration species, and canopy cover and litter layer depth were calculated. The results indicate that the Shannon index value of tree diversity was higher (p < .05) at a 15 m sampling distance compared a 5 m sampling distance, where the Shannon index value of tree regeneration, canopy cover and litter layer showed no significant values (p > .05). This study concludes that there is an effect of the trail on the tree diversity but not on the regeneration diversity, canopy cover, and litter layer, as it represents the adaption and mitigation capacity of the forest to the effect of the trails throughout time. Investigation on other environmental and vegetational parameters can help to understand the concept of forest trail effects. Additionally, forest managers can use the results of this study to produce an ecologically sound network of trails in forest. [ABSTRACT FROM AUTHOR]

Published

2022

48. The influence of historic fire on the Midwestern Tension Zone.

Author

Nowacki, Gregory J. and Thomas-Van Gundy, Melissa A.

Subjects

BROADLEAF forests, GLACIAL landforms, MIXED forests, PUBLIC lands, ECOLOGICAL disturbances, FIREFIGHTING, FIRE management

Abstract

The Tension Zone (TZ) is a prominent Midwestern ecotone where the flora of two major forest types (Northern Mixed Forests and Southern Broadleaf Forests) commingle, striking diagonally across the states of Wisconsin and Minnesota. Here, we evaluated the TZ's original placement as demarcated by previous scholars relative to the synecological and autecological characteristics of witness trees from US Public Land Survey records. Witness trees were categorized by temperature and fire relations, point data analyzed in GIS, and spatial outputs compared with the original TZ. Our temperature-based line, representing temperature relations of witness trees, generally corresponded with the original TZ. However, in the lee of firebreaks, isolated pockets of cool/cold mesophytic genera occurred south of the TZ, indicating that other environmental factors were involved in TZ expression. A pyrogenic-based line, created by classifying witness trees by fire relations, had two major northward departures from the original TZ where cold-adapted yet pyrophilic northern pines occurred on sandy glacial deposits. Fire was found to play a contributing role, being pervasive south of the TZ, whereas edaphically restricted to dry, sandy landscapes to the north. Climate change and fire suppression will exert future "tension" on the line, forcing uncertain movement across the landscape from these two divergent forces, with projected higher future temperatures pushing the TZ northward and fire suppression and accompanying mesophication (comprised of primarily cool/cold–based trees) pulling the TZ southward. An endpoint to the temperate-based Midwestern TZ was identified in northwest Minnesota, converting over to a Boreal-Prairie TZ northward. [ABSTRACT FROM AUTHOR]

Published

2022

49. Emerald ash borer intensifies harvest regimes on private land.

Author

Holt, Jonathan R., Smetzer, Jennifer R., Borsuk, Mark E., Laflower, Danelle, Orwig, David A., and Thompson, Jonathan R.

Subjects

EMERALD ash borer, INTRODUCED insects, FOREST insects, FOREST landowners, FOREST management

Abstract

Invasive forest insects have significant direct impacts on forest ecosystems and they are also generating new risks, uncertainties, and opportunities for forest landowners. The growing prevalence and inexorable spread of invasive insects across the United States, combined with the fact that the majority of the nation's forests are controlled by thousands of autonomous private landowners, raises an important question: To what extent will private landowners alter their harvest practices in response to insect invasions? Using a quasi‐experimental design, we conducted a causal analysis to investigate the influence of the highly impactful emerald ash borer (EAB) on (1) annual probability of harvest; (2) intensity of harvest; and (3) diameter of harvested trees, for both ash and non‐ash species on private land throughout the Midwest and mid‐Atlantic regions of the United States. We found that EAB detection had a negative impact on annual harvest probability and a positive impact on harvest intensity, resulting in a net increase in harvested biomass. Furthermore, our estimates suggest that EAB detection will influence private landowners to harvest greater quantities of ash, relative to non‐ash species. We also found that harvested trees in EAB‐infested areas had smaller diameters, on average, compared with those unaffected by EAB. These results can help policymakers, forest managers, and extension programs to anticipate and better advise landowners and managers about their options and the associated outcomes for forests. [ABSTRACT FROM AUTHOR]

Published

2022

50. Human-Lemur Coexistence in a Multiple-Use Landscape

Author

Chloe Chen-Kraus, Njaratiana A. Raharinoro, Miravo A. Randrianirinarisoa, David J. Anderson, Richard R. Lawler, David P. Watts, and Alison F. Richard

Subjects

risk disturbance hypothesis, sifaka, Propithecus verreauxi, disturbance ecology, behavior, distribution, Evolution, QH359-425, Ecology, QH540-549.5

Abstract

Human impacts on the natural world are increasing and are generally considered a threat to wildlife conservation and the persistence of species. However, not all human activities are antithetical to conservation and not all taxa are impacted in the same ways. Understanding how wildlife respond to human activities at the population and individual level will help inform management of landscapes where humans and wildlife can coexist. We examined the effects of anthropogenic activities on a critically endangered primate, Verreaux’s sifakas (Propithecus verreauxi), at a multiple-use reserve in southwest Madagascar. Specifically, we sought to determine which activities the sifakas perceived as disturbances, using the framework of the risk disturbance hypothesis (RDH). The RDH holds that animals will respond to perceived disturbances as they do to predation threats. We therefore predicted that sifakas would be more vigilant, spend more time in high forest strata, reduce their daily feeding time, and occur at lower densities in response to high levels of perceived disturbance. Using data on sifaka behavior and spatial distribution, and the frequencies of anthropogenic activities, we found that sifakas increased vigilance and their height above the ground in response to certain human-related activities, notably those of domestic dogs. Contrary to our predictions, however, we did not find a negative effect of anthropogenic activities on daily activity budgets or population density. The relationship between the occurrence of sifakas and the intensity of tree cutting was actually positive. Our results indicate that sifakas perceive certain anthropogenic activities as threats and respond with immediate behavioral shifts, but that these activities do not have a discernible negative impact on the reserve’s population at this time. These results suggest that lemur conservation can be successful even in areas that are subject to moderate human use.

Published

2022