Your search keyword '"SALVAGE logging"' showing total 1,783 results

51. Helene Impact Becoming Clear.

Subjects

STORM damage, STORMS, FORESTS & forestry, LOGGING, SALVAGE logging, FOREST landowners, TROPICAL storms

Published

2024

52. Changes in suspended‐sediment yields under divergent land‐cover disturbance histories: A comparison of two large watersheds, Olympic Mountains, USA.

Author

Jaeger, Kristin L., Anderson, Scott W., and Dunn, Sarah B.

Subjects

SALVAGE logging, LOGGING, HYDROLOGY, WATERSHEDS, SUSPENDED sediments

Abstract

Improvements in timber harvest practices and reductions in harvest volumes over the past half century are commonly presumed to have reduced sediment loads in many western US rivers. However, direct assessments in larger watersheds are relatively sparse. Here, we compare 2019–21 sediment concentrations against those of the late 1970s in the Bogachiel and Calawah River watersheds, adjacent and similarly sized (~300 km2) basins in the western Olympic Mountains of Washington State. The Calawah River watershed has experienced significant land‐cover disturbance, including a large 1951 fire, extensive post‐fire salvage logging, and relatively high rates of timber harvest through the 1990s. In contrast, the Bogachiel River watershed did not burn, and experienced only modest timber harvest that largely post‐dated 1970s sediment monitoring. Channel‐width trends suggest the Calawah River was still recovering from 1950s disturbances in the late 1970s. We found that 2019–21 suspended‐sediment loads in the Calawah River were 2.3–2.6 times lower than would have been expected based on 1970s sediment rating curves, while recent loads in the Bogachiel River were a factor of 1.4 ± 1.0 lower. We consider the plausibility and possible explanations of declining concentrations in the less‐disturbed Bogachiel River. Suspended‐sediment yields in the Bogachiel River were two times higher than yields in the Calawah River, which is attributed to a combination of modestly higher precipitation, more efficient runoff generation, and more extensive and erodible Quaternary valley fills in the Bogachiel River. Regional shifts in flood hydrology have also influenced suspended‐sediment loads in both watersheds. Our results then document a significant decline in suspended‐sediment concentrations in the Calawah River over the past half century. Reduced land‐cover disturbance provides the simplest and most likely explanation for this decline, though the wide range of possible concentration changes in the Bogachiel River leaves open possibilities that other processes (human, natural, or methodologic) could be a factor. [ABSTRACT FROM AUTHOR]

Published

2023

53. A review of wildfire impacts on stream temperature and turbidity across scales.

Author

Chen, Junjie and Chang, Heejun

Subjects

*WATER temperature, *TURBIDITY, *WILDFIRE prevention, *DRINKING water quality, *SALVAGE logging, *WILDFIRES, *FOREST biodiversity

Abstract

Wildfire has increased in severity and frequency with climate change and human activities in recent years, threatening water-related ecosystem services. Forested watersheds are at risk of impacts of wildfires that alter land cover, and hydrological processes, and influence drinking water quality and aquatic habitat. To date, most research on post-fire hydrologic effects has focused on water quantity, while stream temperature and turbidity received less attention. In this study, we reviewed 62 articles to examine wildfire drivers and processes associated with turbidity and stream temperature behavior through a geographic lens in the context of ecosystem services. Our goals were to (1) evaluate drivers of post-fire changes in turbidity and stream temperature; (2) examine mechanisms and processes responsible for spatial and temporal variabilities of changes; and (3) address scale-dependent knowledge gaps to recommend future research directions. Positive correlations between turbidity changes following wildfire were heavily influenced by fire severity, forest diversity, and landscape alterations by human activities such as salvage logging. Stream temperature increases result from loss of riparian canopy cover and decreased shading, but they were highly site-specific and dependent on topographic variations. We attribute variabilities in our findings to climate variability and heavy disparity across spatial and temporal scales when assessing the direction and magnitude of post-fire impacts. Future research should incorporate more long-term rigorous monitoring efforts and spatiotemporally explicit models to better represent the complex post-fire hydrologic system that influences water quality. [ABSTRACT FROM AUTHOR]

Published

2023

54. Salvaging power-law inflation through warming.

Author

Alhallak, M., Chamoun, N., and Eldaher, M. S.

Subjects

*SALVAGE logging, *SUPERGRAVITY, *DEFINITIONS

Abstract

Power-law inflation with scale factor a ∝ t m is investigated in the context of warm inflation. The treatment is performed in the weak and strong dissipation limits. In addition, we discuss the three common cases for the thermal dissipation coefficient Γ (T) . We compare the theoretical results of the power-law model within warm inflation with the observational constraints from Planck 2018 and BICEP/Keck 2018, as presented by the tensor-to-scalar ratio r and spectral index n s . The model results agree largely with the observations for most of the Γ (T) cases. Furthermore, in order to address the problem of exiting the inflationary epoch, we suggest a perturbed modification to the power-law definition so that it becomes affine, and find that this small change indicates a way for having an exit scenario with a suitable e-foldings number. Finally, we examine this perturbation ansatz within the context of cold inflation with exponential potential, and we find that it can accommodate the observational data with sufficient e-foldings. Our study suggests that the power-law inflation and the exponential potential, in both warm and cold inflation contexts, can in principle be made consistent with the observations and with a possible graceful exit. [ABSTRACT FROM AUTHOR]

Published

2023

55. Modeling Juvenile Stand Development and Fire Risk of Post-Fire Planted Forests under Variations in Thinning and Fuel Treatments Using FVS–FFE.

Author

Allen, Iris, Pawlikowski, Natalie, Chhin, Sophan, Premer, Michael, and Zhang, Jianwei

Subjects

FUEL reduction (Wildfire prevention), POST-fire forests, FOREST thinning, SALVAGE logging, FOREST plants, CONIFEROUS forests, PRESCRIBED burning, FOREST canopies

Abstract

In the past, the dry mixed conifer forests of California's Sierra Nevada mountains experienced frequent low to mixed severity fires. However, due to fire suppression and past management, forest structure has changed, and the new fire regimes are characterized by large, high severity fires which kill a majority of the overstory trees. These new disturbance patterns require novel approaches to regenerate the forest as they are not adapted to large, high severity fires. We forecasted growth and fire behavior of young plantations for 100 years into the future using the Forest Vegetation Simulator (FVS) and its Fire and Fuels Extension (FFE). In these simulations, we tested combinations of different fuel treatments (mastication only, mastication with prescribed burning, and no fuels treatments) with different overstory thinning intensities (residual densities of 370 SDI (stand density index), 495 SDI, 618 SDI (TPH), and no overstory thinning) on stand growth and potential fire behavior using analysis of variance. We compared growth and crowning index at the end of the simulation and the simulation age when the flame length, basal area mortality, and fire type reached low severity between fuel treatment, thinning intensity, and original management of stands (plantation with PCT [precommercial thinning], plantation without PCT, and natural regenerating stands). These comparisons are essential to identify which fuel treatment categories reduce fire risk. We found an overall pattern of decreasing crown fire occurrence and fire induced mortality across all simulations due to increasing canopy base height and decreasing canopy bulk density. In particular, stands with mastication and prescribed burning transitioned from crown fire types to surface fires 10 years earlier compared to mastication only or no fuel treatment. Furthermore, pre-commercially thinned stands transitioned from crown fire states to surface fires 10 years earlier in the simulations compared to un-thinned and naturally regenerating stands. Stands with mastication and burning went below 25% reference threshold of basal area mortality 11 and 17 years earlier before the mastication only and no fuel treatment, respectively. In addition, pre-commercially thinned stands went below 25% basal area mortality 9 and 5 years earlier in the simulation compared to un-thinned or naturally regenerated stands, respectively. Mastication with prescribed burning (MB) was the most effective treatment for quickly reducing fire behavior by consuming surface fuels, thus drastically lowing flame length (e.g., surface flame length of MB was 0.6 m compared to mastication only [1.3 m] and no treatment [1.4 m]). Furthermore, intensive thinning reduced risk of active crown fires spreading through the stand. Prioritizing prescribed burning, when possible, and thinning (both pre-commercially and from below) are the most effective ways to quickly improve fire resistance in mixed conifer plantations. Our results highlight the different stressors that post-fire planted forests experience and how different silvicultural treatments interact over time to reduce fire risk, which demonstrates the importance of treating stands early and the effectiveness of surface fuel treatments. [ABSTRACT FROM AUTHOR]

Published

2023

56. Testing simple approaches to map sediment mobilisation hotspots after wildfir.

Author

Parente, Joana, Nunes, João Pedro, Baartman, Jantiene, and Föllmi, Dante

Subjects

UNIVERSAL soil loss equation, EROSION, SEDIMENTS, SOIL erosion, MOLECULAR connectivity index, SALVAGE logging, WATER pollution

Abstract

Background. The models currently used to predict post-fire soil erosion risks are limited by high data demands and long computation times. An alternative is to map the potential hydrological and sediment connectivity using indices to express the general properties of the burnt landscape. Aims. In this study, we aimed to answer the question: Do these tools identify post-fire sediment mobilisation hotspots? Methods. To achieve this, we assessed the spatial variability distribution of the location of soil erosion hotspots using the Index of Connectivity, Revised Universal Soil Loss Equation and the Sediment Export, and compared it with the simulation results of a more complex Landscape Evolution Model (LAPSUS model). Additionally, we evaluated statistical measures of association between the four tools. Key results. The three tools tested in this study are suitable for identifying sediment mobilisation hotspots, where the erosion rates are above the 95th percentile, and differences between their performance are small. Conclusions. The results indicate that these tools help locate extreme erosion locations in recently burnt areas. Implications. These results can be considered for post-fire and water contamination risk management, especially for fast prioritisation of areas needing emergency post-fire intervention. [ABSTRACT FROM AUTHOR]

Published

2023

57. Fire severity influences large wood and stream ecosystem responses in western Oregon watersheds.

Author

Coble, Ashley A., Penaluna, Brooke E., Six, Laura J., and Verschuyl, Jake

Subjects

FIRE management, WOOD, ECOSYSTEMS, WATERSHEDS, SALVAGE logging, RIPARIAN areas, TREE mortality

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

2023

58. Species mixtures increase fine root length to support greater stand productivity in a natural boreal forest.

Author

Huang, Chenyan, Chen, Han Y. H., Chang, Scott X., Cahill, James F., and Ma, Zilong

Subjects

*FOREST productivity, *TAIGAS, *CARBON sequestration in forests, *POST-fire forests, *JACK pine, *SALVAGE logging, *POPULUS tremuloides

Abstract

Species mixtures have been widely reported to increase aboveground productivity; however, how tree species mixtures affect root systems in natural forests remains unclear. We hypothesize that mixtures have a greater fine root length compared to single species‐dominated stands to support their greater productivity.Here, we collected monthly root images from the minirhizotrons installed in 18 stands either dominated by Populus tremuloides, Pinus banksiana, and their mixtures for three years (2015–2017) in post‐fire boreal forests of two stand ages (8 and 34 years old) to test our hypotheses.We found that the fine root length was higher in mixtures than in single species‐dominated stands, and the magnitude of mixture effects was greater in the 34‐ than in the 8‐year‐old stands in the third year. The mixture effects on fine root length revealed a positive relationship with forest net primary productivity. Root length production, which is the growth of new roots within a year, was not affected by tree species mixtures except for the 8‐year‐old stand in 2015. Tree species mixtures did not affect root length turnover. Root length and root biomass were not significantly correlated at stand level.Synthesis. Our results show that tree species mixtures positively affect fine root length, with that positive effect increasing with stand development in the studied natural forests. Our results suggest that the greater root length in species mixtures supported the greater forest productivity in species mixtures as the greater root length benefits plant uptake of nutrients and water. Therefore, conserving tree species diversity has implications for improving forest productivity and carbon sequestration in forest ecosystems. [ABSTRACT FROM AUTHOR]

Published

2023

59. Short-term drivers of post-fire forest regeneration in the Western Alps.

Author

Mantero, Giulia, Morresi, Donato, Negri, Sara, Anselmetto, Nicolò, Lingua, Emanuele, Bonifacio, Eleonora, Garbarino, Matteo, and Marzano, Raffaella

Subjects

POST-fire forests, FOREST regeneration, EUROPEAN aspen, EUROPEAN larch, SALVAGE logging, FOREST fire ecology, ECOSYSTEMS

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

2023

60. Productivity analysis and costs of wheel cable skidder during salvage logging in European beech stand.

Author

Stoilov, Stanimir, Papandrea, Salvatore F., Angelov, Georgi, Oslekov, Delyan, Zimbalatti, Giuseppe, and Proto, Andrea R.

Subjects

*SALVAGE logging, *EUROPEAN beech, *COST analysis, *NATURAL disasters, *MACHINE performance

Abstract

Salvage logging is increasing in Central Europe because of the growth of severe meteorological events, and timber harvesting in these conditions is challenging in terms of both productivity performances and safety of the operations. In recent years, with the increase of natural calamities, several researchers studied machinery productivity performances regarding salvage logging carried out by ground-based systems. In fact, a common post-disturbance management approach is salvage logging which consists of the widespread removal of damaged trees. In this research, system productivity and the cost of salvage logging are analysed in European beech stands affected by wet snow. The accretion of heavy wet snow poses the greatest risk to forests in the Northern Hemisphere. This type of snow attaches more effectively to tree crowns and branches when temperatures are close to freezing at the time of precipitation. As a result, trees may break or bend and may be uprooted when the soil is unfrozen. This study has been implemented to evaluate the productivity and cost-effectiveness of extraction in salvage logging deployed with a skidder in beech stands affected by two different types of wet snow damage. The results show that the productivity of the four-wheel-drive cable skidder, despite operating in salvage cutting with a removal intensity of 10%, is 14.73 m3·SMH-1, similar to skidder performances in 'ordinary' cuttings. Skidder's productive time was 86% of the scheduled time, whereas the delays were due to organisational reasons, mechanical delays, and adverse weather conditions. The mean travel speed of the cable skidder obtained in this study is close to the results obtained from other studies on similar machines. The costs per unit are lower than effective cost consumptions for the other cable skidders and agricultural tractors, adapted for skidding operated in hardwood salvage logging. Therefore, under the given conditions, the operation of the fourwheel-drive cable skidder is viable from a silvicultural, technical, and economic point of view in the salvage operation logging. [ABSTRACT FROM AUTHOR]

Published

2023

61. Leaving windthrown stands unsalvaged as a management practice for facilitating late-successional carabid assemblages.

Author

Skłodowski, Jarosław

Subjects

*LEAF area index, *SALVAGE logging, *DEAD trees, *SOIL respiration, *WINDFALL (Forestry), *CROWNS (Botany), *FOREST productivity

Abstract

The usual practice following a windthrow event is salvage logging of all damaged trees. This study was carried out in a pine stand affected by storms with varying disturbance severities in which no salvage logging was performed. Epigeic carabids (Coleoptera) were the test taxon. How does windthrow severity and disturbance legacies affect the abundance, richness and life traits of carabid assemblages? Two hypotheses were formulated: (1) the more severe the disturbance, the higher the abundance and species richness, and the lower the proportion of late-successional fauna in carabid assemblages, and (2) pine tree crowns lying on the ground support a higher proportion of late-successional carabid species, the effect of which should be more pronounced in more severely disturbed stands but will decrease as needles fall off over the next 3 years. To test the first hypothesis, 3 degrees of stand disturbance were distinguished. Both hypotheses were partially supported. Simultaneously, it was demonstrated that the importance of the leaf area index for carabids decreased over the 3 years, while the significance of the soil respiration rate and soil humidity increased. During the 3 years, the percentage of carabid forest species living under the fallen tree crowns remained at the same level. The findings indicate that there is a rationale for leaving fallen trees in place together with their crowns, while in tree stands where salvage logging is performed, whole crowns should be left cut-off from trunks to provide shelter for forest species. [ABSTRACT FROM AUTHOR]

Published

2023

62. The 30-year impact of post-windthrow management on the forest regeneration process in northern Japan.

Author

Li, Jing, Morimoto, Junko, Hotta, Wataru, Suzuki, Satoshi N., Owari, Toshiaki, Toyoshima, Motoko, and Nakamura, Futoshi

Subjects

SALVAGE logging, FOREST management, FOREST regeneration, OLD growth forests, OPTICAL radar, LIDAR

Abstract

The frequency and intensity of typhoons are expected to increase over time due to climate change. These changes may expose forests to more windthrow in the future, and increasing the resilience of hemiboreal forests through forest management after windthrow is important. Here, we quantified forest structure recovery using aerial photos and light detection and ranging (LiDAR) data after catastrophic windthrow events. Our aims are to test the following three hypotheses: (1) forest structure will not recover within 30 years after windthrow, (2) forest recovery will be affected not only by salvaging but also pre-windthrow attributes and geographical features, and (3) various post-windthrow management including salvaging will drastically alter tree species composition and delay forest recovery. Our results revealed that hypothesis (1) and (2) were supported and (3) was partially supported. The ordination results suggested that more than 30 years were needed to recover canopy tree height after windthrow in hemiboreal forests in Hokkaido, Japan. Salvage logging did not delay natural succession, but it significantly decreased the cover ratio of conifer species sites (0.107 ± 0.023) compared with natural succession sites (0.310 ± 0.091). The higher the elevation, the steeper the site, and the higher the average canopy height before windthrow, the slower the recovery of forest stands after windthrow and salvaging. Scarification and planting after salvage logging significantly increased the number of canopy trees, but those sites differed completely in species composition from the old growth forests. Our study thus determined that the choice and intensity of post-disturbance management in hemiboreal forests should be carefully considered based on the management purpose and local characteristics. [ABSTRACT FROM AUTHOR]

Published

2023

63. Decision Support Framework for Evaluating The Barriers To Salvage Logging: A Case Study on Private Forest Management in Slovenia.

Author

Stare, Darja, Grošelj, Petra, and Pezdevšek Malovrh, Špela

Subjects

FOREST management, SALVAGE logging, DECISION support systems, STAKEHOLDERS, MULTIPLE criteria decision making

Abstract

Natural disturbances have increased the extent of forest damage in recent decades and influenced the share of salvage logging and forest management practices in many European countries. These challenges have a significant impact on private forest owners, as 56% of all forestland in Europe is privately owned. The current study researched barriers to salvage logging in private forests in a three-phase framework. First, barriers were identified by conducting a literature review, and they were critically reviewed by experts. In the second phase, stakeholders were selected, and in the third phase, they evaluated barriers using the multicriteria decision-making, best-worst method. The developed framework was applied in the case of Slovenian private forest management. According to the stakeholders, the most important group of barriers consists of organizational and logistical factors, while the most important individual barrier is the organization of logging and skidding. It is expected that this framework can contribute to finding appropriate solutions that meet stakeholders' expectations and that are very helpful and important in removing barriers to the efficiency of salvage logging in private forests. [ABSTRACT FROM AUTHOR]

Published

2023

64. Long-term patterns of post-fire harvest diverge among ownerships in the Pacific West, U.S.A

Author

Aaron Zuspan, Matthew J Reilly, and E Henry Lee

Subjects

salvage logging, Landsat, change detection, post-fire management, regional trends, time series analysis, Environmental technology. Sanitary engineering, TD1-1066, Environmental sciences, GE1-350, Science, Physics, QC1-999

Abstract

Post-fire harvest (PFH) is a forest management practice designed to salvage value from burned timber, mitigate safety hazards from dead trees, reduce long-term fuels, and prepare sites for replanting. Despite public controversy and extensive ecological research, little is known about how much PFH occurs on private and public lands in the U.S. Pacific West, or how practices changed with shifting forest policy and increasing area burned over the last three decades. We mapped PFH across 2.2 M burned hectares in California, Oregon, and Washington between 1986–2017 and used time series intervention analysis to compare trends in area, rate (% of burned area harvested), and mean patch size between private (0.5 M ha) and federal (1.6 M ha) forest land and across a gradient of burn severity. Harvest rates varied by ownership (4.9% federal, 18.6% private, 8.0% overall), and practices evolved and diverged over the study period. PFH area and rate declined across all ownerships in the mid-1990s during a period of reduced fire activity. As area burned increased between the early 2000s and late 2010s, PFH area rebounded and surpassed late-1980s levels, while rates remained relatively low. On federal lands, PFH practices shifted in the early-to-mid 1990s towards lower rates (10.3%–3.8%) and smaller patches (6.0–3.3 ha), following policy changes and increased litigation. PFH rates on federal lands decreased at all levels of burn severity, with the largest decreases (6.2%–1.2%) in forests with low tree mortality (i.e. fire refugia). Conversely, private PFH rates and mean patch sizes more than doubled in forests burned at very low-to-moderate severity. Our results highlight how PFH practices have shifted with policy, socio-economic pressure, and increasing area burned over 31 years in the Pacific West. A similar area of PFH is now dispersed over larger fires, with practices diverging substantially between ownerships.

Published

2024

65. Overview of the 2022 North American Forest Ecology Workshop (NAFEW): Turning Ecological Answers into Forest Management Actions.

Author

Venier, Lisa, Morris, Dave, and Work, Timothy

Subjects

*FOREST management, *FOREST ecology, *FORESTS & forestry, *SALVAGE logging, *TREE growth, *BIOTIC communities, *FOREST policy

Abstract

The article discusses the 2022 North American Forest Ecology Workshop (NAFEW) with the theme "Turning Ecological Answers into Forest Management Actions," highlighting the importance of forest science in sustainable forest management practices and how the research community contributes to evidence-based policies.

Published

2023

66. The effect of post-wildfire management practices on vegetation recovery: Insights from the Sapadere fire, Antalya, Türkiye

Author

Cihan Yıldız, Resul Çömert, Hakan Tanyaş, Abdüssamet Yılmaz, Abdullah Akbaş, Semih Sami Akay, Ömer Yetemen, and Tolga Görüm

Subjects

wildfire, vegetation recovery, salvage logging, mediterranean, Türkiye, Science

Abstract

Post-wildfire management actions mainly targeting the removal of salvage logs and burned trees is a common but controversial practice. Although it aims to regain some of the natural and economic value of a forest, it also requires disturbing burned areas, which may have some negative consequences affecting, for instance, the carbon cycle, soil erosion, and vegetation cover. Observations from different geographic settings contribute to this scientific debate, and yet, the spatiotemporal evolution of the post-fire road network developed as part of fire management practices and its influence on vegetation recovery has been rarely examined. Specifically, we still lack observations from Türkiye, though wildfires are a common event. This research examined the evolution of the vegetation cover in relation to post-fire road constructions and the resultant debris materials in areas affected by the 2017 Sapadere fire in Antalya, Türkiye. We used multi-sensor, multi-temporal optical satellite data and monitored the variation in both vegetation cover and road network from the pre-to post-fire periods between 2014 and 2021. Our results showed that fire management practices almost doubled the road network in the post-fire period, from 487 km to 900 km. Overall, 7% of the burned area was affected by these practices. As a result, vegetation cover in those areas shows only ∼50% recovery, whereas undisturbed areas exhibit ∼100% recovery 5 years after the event. Notably, such spatiotemporal analysis carried out for different burned areas would provide a better insight into the most suitable post-fire management practices. Our findings, in particular, show that the current practices need to be revisited as they cause a delay in vegetation recovery.

Published

2023

67. The Budworm Made Me Do It

Author

Sayen, Jamie, author

Published

2023

68. Ecological distribution and genetic diversity of Azolla in Uganda.

Author

Lydia, Nabyonga, Basamba, Twaha A., Nyakoojo, Clement, Mustafa, Abubakar Sadik, Saidi, Ntambi, Mutumba, Gerald M., and Ssenku, Jamilu E.

Subjects

*GENETIC variation, *PRINCIPAL components analysis, *SALVAGE logging, *WATER masses, *DATABASES, *ECOLOGICAL zones

Abstract

Background: Azolla is an important aquatic fern whose agronomic potential has not been fully exploited in Uganda. This study aimed at determining the genetic variation in the Azolla species existing in Uganda and the factors influencing their distribution in the different agro-ecological zones of Uganda. Molecular characterization was preferred in this study because of its efficiency in detecting variations among closely related species. Results: Four species of Azolla were identified in Uganda with 100, 93.36, 99.22 and 99.39% sequence identities to the reference database sequences of; Azolla mexicana, Azolla microphylla, Azolla filiculoides and Azolla cristata, respectively. These different species were distributed in four out of the ten agro-ecological zones of Uganda which are situated in close vicinity to large water masses. The principal component analysis (PCA) results revealed that maximum rainfall and altitude significantly accounted for the variations in the distribution of Azolla with factor loadings of 0.921 and 0.922, respectively. Conclusion: Massive destruction coupled with prolonged disturbance of Azolla's habitat negatively affected its growth, survival and distribution in the country. Therefore, there is a need to develop standard methods that can preserve the various species of Azolla, so as to salvage them for future use, research and reference. [ABSTRACT FROM AUTHOR]

Published

2023

69. Forest Disturbances Threatening Cypripedium calceolus Populations Can Improve Its Habitat Conditions.

Author

Křenová, Zdenka, Lustyk, Pavel, Kindlmann, Pavel, and Vosmíková, Alžběta

Subjects

*WILDLIFE conservation, *SALVAGE logging, *BARK beetles, *NATURE conservation, *KEYSTONE species, *HABITATS

Abstract

Inappropriate forest management activities, above all clear-cutting, are recognized as the major threats to an iconic orchid species—the lady's slipper orchid (Cypripedium calceolus), the flagship species of nature protection in Europe. Although clear-cutting in protected species' localities is strongly regulated in many European countries, salvage logging is allowed in some circumstances (e.g., following windstorms, and insect outbreaks) and can threaten C. calceolus populations. In this paper, we review a database of recently registered populations of this species in the Czech Republic and study historical maps, to better understand the history of local habitat conditions and assess threats to C. calceolus populations by bark beetle outbreaks. We found that about one-third of the C. calceolus populations have suffered in coniferous or mixed tree plantations with a high proportion of spruce trees, which are forests with a high risk of bark beetle infestation. We review bark beetle management measures and distinguish management efforts in areas with known C. calceolus populations that result in no damage to the population and, at times, improve habitat conditions for the species. Thus, the bark beetle—usually understood as the enemy—can be transformed into a savior if smart management measures will replace the panic salvage logging. [ABSTRACT FROM AUTHOR]

Published

2023

70. Temporal differences in snail diversity responses to wildfires and salvage logging.

Author

Puig-Gironès, Roger, Santos, Xavier, and Bros, Vicenç

Subjects

*SALVAGE logging, *SNAILS, *FOREST conservation, *HABITATS, *ENDANGERED species, *HABITAT modification, *FOREST restoration, *MARINE debris, *FIRE management

Abstract

Summary: Species tend to peak in abundance at different times after fires. Over time, species richness (α) and landscape heterogeneity are prone to increase and lead to greater between-site diversity (β). However, post-fire salvage logging can reduce β-diversity, both directly and through its influence on succession. The as-yet understudied response of land snails to long-term habitat modification after wildfires and forest management is important for decision-making in forest restoration and conservation. We expected to detect differences in land snails and diversity in both the short and long term and between treatments in a natural park in the Mediterranean Basin. However, our results showed that post-fire management was a non-significant variable for snail community diversity, the exception being open-habitat endemic species. Plant succession and leaf litter cover were the main variables that shaped snail diversity and abundance over time after fires. Eighteen years after a fire, the land snail diversity had improved and the community composition had diversified, irrespective of the post-fire treatment, but threatened species disappeared and the total snail numbers had notably declined. To preserve threatened open-habitat species, prescribed fires and livestock grazing are recommended in combination with mature areas that can act as shelters where forest snails can recover from future disturbances. [ABSTRACT FROM AUTHOR]

Published

2023

71. Environmental dimensions during and after the Nagorno‐Karabakh conflict of 2020.

Author

Darbyshire, Eoghan and Weir, Doug

Subjects

ENVIRONMENTAL degradation, WAR, MIXED methods research, REMOTE sensing, SALVAGE logging

Abstract

The 44‐day war between Azerbaijan and Armenia in Nagorno‐Karabakh in 2020 resulted in significant environmental damage. This brief communication presents two aspects of harm to the region's biodiverse‐rich primary forests—(1) hundreds of conflict‐linked landscape fires during and (2) widespread development postconflict, without a due environmental assessment. The use of novel mixed methods research, including satellite remote sensing, has allowed an independent and open response to some of the environmental narratives, which were weaponized by both conflict parties. Integr Environ Assess Manag 2023;19:360–365. © 2022 SETAC Key Points: The 44‐day war between Azerbaijan and Armenia in Nagorno‐Karabakh in 2020 resulted in significant environmental damage.This brief communication presents two aspects of harm to the region's biodiverse‐rich primary forests—(1) hundreds of conflict‐linked landscape fires during and (2) widespread development postconflict, without a due environmental assessment. [ABSTRACT FROM AUTHOR]

Published

2023

72. Salvage craniospinal irradiation for recurrent intracranial germinoma: a single institution analysis.

Author

Kanamori, Masayuki, Shimoda, Yoshiteru, Umezawa, Rei, Iizuka, Osamu, Mugikura, Shunji, Suzuki, Kyoko, Ariga, Hisanori, Jingu, Keiichi, Saito, Ryuta, Sonoda, Yukihiko, Kumabe, Toshihiro, and Tominaga, Teiji

Subjects

GERMINOMA, SALVAGE logging, RADIOTHERAPY, LOG-rank test, DOSE-response relationship (Radiation), IRRADIATION, SALVAGE therapy, RADIOTHERAPY safety

Abstract

This study investigated the effectiveness and safety of low-dose salvage craniospinal irradiation (CSI) for recurrent germinoma. We retrospectively reviewed long-term tumor control and late adverse effects in 15 recurrent germinoma patients treated at our hospital between 1983 and 2019. Following the first recurrence of germinoma, seven were treated with 24–30 Gy of salvage CSI, three underwent non-CSI, and five were treated with only chemotherapy. CSI achieved a significantly better recurrence-free survival rate after the first recurrence compared to other strategies (100% vs 33%, p < 0.001: log-rank test). To evaluate the safety of salvage CSI, we assessed the outcomes at the final follow-up of seven patients who received salvage CSI at first recurrence and three patients who received salvage CSI at second recurrence. The median follow-up period was 220 months after initial treatment. Five patients who received 40–50 Gy of radiation therapy or underwent multiple radiation therapy before salvage CSI were classified into Group A, whereas five patients treated with platinum-based chemotherapy and 24–32 Gy of radiation therapy to the primary site, whole ventricle, or whole brain were classified into Group B. In Group A, one had endocrine dysfunction and the other had visual dysfunction. None were socially independent. Meanwhile, in Group B, no endocrine or visual dysfunction was found, and three patients were socially independent. Salvage CSI achieved excellent tumor control in recurrent germinoma and was safe in patients initially treated with low-dose radiation therapy and chemotherapy. [ABSTRACT FROM AUTHOR]

Published

2023

73. Long-term response of open-habitats species to wildfire salvage logging: the endangered European wild rabbit as example.

Author

Puig-Gironès, Roger, Ferret, Alba, Rollan, Àlex, and Real, Joan

Subjects

*SALVAGE logging, *EUROPEAN rabbit, *HABITATS, *ENDANGERED species, *PLANT habitats, *WILDFIRES, *WILDFIRE prevention, *FUEL reduction (Wildfire prevention)

Abstract

Salvage logging treatments, a type of logging to economic returns after natural disturbance, are often applied in the aftermath of wildfires. Specialist or dependent species of open-habitat usually increase their populations in the short-term after wildfires and post-fire salvage logging. However, the long-term effects on threatened open-habitat species such as the European wild rabbit (Oryctolagus cuniculus L.) are still poorly known. Thus, plant productivity, habitat heterogeneity and rabbit abundance were studied in the north-east Iberian Peninsula in four type of post-fire treatment plots: (1) unburnt, (2) salvage logging with branches left on the ground, (3) salvage logging and manual removal of branches, and (4) recurrent fires. Both the time since the fire and the treatment affected plant productivity and habitat heterogeneity. Plant productivity was quicker in treatments when branches were left on the ground or when branches were removed than in recurrent fire plots. Rabbit relative abundance increased in the short term but dramatically declined over time after fires, especially in the plots where branches were left on the ground and with recurrent fires, in which rabbit abundances fell dramatically. In the long-term, the lack of food availability and adequate habitat structure are the main factors affecting the maintenance of the rabbit population. An appropriate moment for managing burnt areas to favour the persistence of rabbit is between the fifth and sixth year after the fire. These actions also benefit the reduction of environmental biomass and so help prevent future severe wildfires. [ABSTRACT FROM AUTHOR]

Published

2023

74. Forecasting wildfire-induced declines in potential forest harvest levels across Québec.

Author

Bouchard, Mathieu, Aquilué, Núria, Filotas, Élise, Boucher, Jonathan, and Parisien, Marc-André

Subjects

*LOGGING, *FOREST declines, *SALVAGE logging, *FOREST management, *TAIGAS, *WILDFIRE prevention

Abstract

Wildfires are increasing in importance in many regions of the Canadian boreal forest and are an ongoing risk for forest management activities. We simulated the effects of fires on long-term harvest levels on the 59 forest management units of the province of Québec, Canada, for the 2020–2100 period. Different climate change pathways (stable, RCP 4.5 or 8.5) and salvage logging rates (20% or 70% of mature burned stands) were simulated. Changes in forest flammability due to climate change, species migration, and forest management were also considered. Under stable climatic conditions, the decline in potential harvest levels due to fire, based on 50 simulations per scenario, ranged between 3% and 33% (mean = 11%) when high salvage logging rates were simulated, compared to 6%–45% (mean = 20%) for low salvage rates. Climate change caused increases in burn rates between −3% and 39% for RCP 4.5 and between 33% and 69% for RCP 8.5 at the end of the 21st century, depending on fire zones. However, the effects of these modified burn rates on harvest levels did not differ substantially from those of baseline burn rates, probably because the projected burn rates were highest during the later part of the simulations (2070–2100), when their impacts on harvest level calculations were limited. This study indicates that potential harvest levels calculated without considering wildfires are likely to be non-sustainable. [ABSTRACT FROM AUTHOR]

Published

2023

75. Post-wildfire salvage logging effects on snag structure and dead woody fuel loadings.

Author

Johnson, Morris C., Kennedy, Maureen C., Harrison, Sarah C., Alvarado, Ernesto, Desautel, Cody, Holford, Joseph, and Logue, Shay

Subjects

*SALVAGE logging, *LOGGING, *WILDFIRE prevention, *FOREST plants, *COARSE woody debris, *FUELWOOD, *SEED harvesting

Abstract

Salvage logging is a controversial tool for post-wildfire management that removes fire-killed trees. We use a generalized randomized experimental design to fulfill two main objectives: (1) quantify the immediate (1-year post-harvest) effects of salvage logging on stand structure, fine and coarse woody fuel loadings; and (2) use pre- and post-empirical field data and the Fire and Fuels Extension to the Forest Vegetation Simulator (Reinhardt and Crookston 2003) to simulate post-wildfire dead woody fuel succession and snag dynamics. We compared the effects on woody fuel loadings of two salvage logging prescriptions: (1) seed tree harvest, thin to 3.4 m2·ha−1; and (2) full salvage of all merchantable timber, relative to unlogged controls. There was substantial block-level variability in the implementation of the treatments and in their immediate effects on fine fuel loading, complicating comparison of the two prescriptions. Overall, salvage logging did reduce snag basal area and, relative to unlogged controls, significantly increased measured fine woody fuel loading (10 and 100 h). Simulated snag fall was rapid, with a mean predicted snag basal area loss of 61% within 10 years. Future long-term monitoring of permanent field plots will supplement model predictions and provide valuable data to inform post-wildfire management decisions. [ABSTRACT FROM AUTHOR]

Published

2023

76. Short-term effects of the depth of masticated slash after salvage logging on fuel and vegetation response.

Author

Fernández, Cristina

Subjects

SALVAGE logging, SLASH (Logging), SOIL compaction, CARBON in soils, FOREST management, FOREST fires, PINE, BETEL nut

Abstract

Background: Salvage logging is commonly carried out after forest fires, and mastication of the logging slash is usually prescribed to reduce the risk of infestation by insect pests in NW Spain. Aims: To evaluate how post-fire masticated slash depth affected vegetation regeneration (cover, diversity and load) and soil variables (soil organic carbon and soil compaction). Methods: In October 2017, a fire that completely burned tree crowns and caused moderate soil burn severity was selected for study. At the end of 2017, the burned trees were logged and logging slash was masticated. Twenty plots were established in June 2020 in those areas to analyse the effect of the depth of masticated slash on soil compaction, vegetation recovery, fuel distribution and carbon accumulation. Key results: The depth of masticated slash did not affect soil compaction, total vegetation cover or species diversity. Mean pine seedling density was significantly higher areas where the masticated slash depth was lower. Fuel loads and soil carbon content did not vary with the depth of masticated slash. Conclusions: A lower masticated slash depth seems to be more favourable for pine regeneration. Implications: These results may be useful for managers to favour natural regeneration in similar pine stands after fire. This study aimed to evaluate how post-fire masticated slash depth affected vegetation regeneration to provide information for forest management planning. The masticated slash depth did not have significant effects on vegetation cover or species diversity 2.5 years after treatments. A lower slash depth favoured pine regeneration. [ABSTRACT FROM AUTHOR]

Published

2023

77. Effects of Post-Fire Management on a Mediterranean Small Mammal Community.

Author

Torre, Ignasi, Ribas, Alexis, and Puig-Gironès, Roger

Subjects

*MAMMAL communities, *SALVAGE logging, *ECOLOGICAL niche, *GROUND cover plants, *APODEMUS, *FOREST fire ecology

Abstract

Wildfires simplify ecosystems, modifying the ecological niches of the fauna living in the recently burned areas. Small mammals respond rapidly to changes in habitat structure and composition after fire, but the effects of fire can be ameliorated by some management strategies (e.g., salvage logging). Hence, it is necessary to explore whether alternative management strategies may be able to return the ecosystem to its initial state. We studied the small mammal community by live trapping on eight plots under different post-fire treatments in Sant Llorenç del Munt i l'Obac Natural Park (Barcelona province, NE Spain). At the community level, an increase in overall relative abundance and species density was observed in the burned areas. Apodemus sylvaticus, the most abundant mammal in study area, used woody debris piles as a shelter against predators. Mus spretus was more abundant in post-fire sites with large open areas interspersed with woody debris piles. Crocidura russula steadily increased its presence in later successional stages when ground cover became more complex. Our results suggest that combining different management strategies may be appropriate to improve the habitat suitability and biodiversity of small mammals and other key open-land species throughout the burned area. [ABSTRACT FROM AUTHOR]

Published

2023

78. Multi-Objective Scheduling of Fuel Treatments to Implement a Linear Fuel Break Network.

Author

Belavenutti, Pedro, Ager, Alan A., Day, Michelle A., and Chung, Woodam

Subjects

*FUELWOOD, *FOREST management, *FOREST reserves, *MATHEMATICAL optimization, *FUEL reduction (Wildfire prevention), *FIRE management, *SCHEDULING, *SALVAGE logging

Abstract

We developed and applied a spatial optimization algorithm to prioritize forest and fuel management treatments within a proposed linear fuel break network on a 0.5 million ha Western US national forest. The large fuel break network, combined with the logistics of conducting forest and fuel management, requires that treatments be partitioned into a sequence of discrete projects, individually implemented over the next 10–20 years. The original plan for the network did not consider how linear segments would be packaged into projects and how projects would be prioritized for treatments over time, as the network is constructed. Using our optimization algorithm, we analyzed 13 implementation scenarios where size-constrained projects were prioritized based on predicted wildfire hazard, treatment costs, and harvest revenues. We found that among the scenarios, the predicted net revenue ranged from USD 3495 to USD 6642 ha−1, and that prioritizing the wildfire encounter rate reduced the net revenue and harvested timber. We demonstrate how the tradeoffs could be minimized using a multi-objective optimization approach. We found that the most efficient implementation scale was a sequence of relatively small projects that treated 300 ha ± 10% versus larger projects with a larger treated area. Our study demonstrates a decision support model for multi-objective optimization to implement large fuel break networks such as those being proposed or implemented in many fire-prone regions around the globe. [ABSTRACT FROM AUTHOR]

Published

2023

79. What Remains? Salvaging Meaning from "Dementia Friendly Communities" Using Cut-Ups and Collage.

Author

Williams, Aelwyn

Subjects

*COMMUNITIES, *DEMENTIA, *COLLAGE, *ETHNOLOGY, *INSPIRATION, *SALVAGE logging

Abstract

This paper explores the possibilities of using alternative forms of analysis when thinking about "dementia friendly communities," a recent if not by now historic phenomenon. Using ethnographic methods, I ask the question: what remains beyond, in excess of, and is never quite captured in discourses around such communities, if they exist? Dementia is an elusive concept, often appearing as personal disruption, and often threatening the ways that contemporary lives are ordered. I ask whether there is value in questioning the fragmentary remains of researching dementia friendly communities from a different angle, by approaching the disparate assemblage of materials, fieldnotes, photos, recordings of ordinary practices, of state practices, through more creative means? Taking inspiration from the avant-garde techniques of William S. Burroughs, in particular cut-ups and collage, the aim here has been to pay attention differently and move beyond what is already known. [ABSTRACT FROM AUTHOR]

Published

2023

80. Fire and salvage logging increased recalcitrant soil organic matter and reduced soil functionality in Mediterranean pine forests.

Author

Peña-Molina, Esther, Moya, Daniel, Merino, Agustín, Fajardo-Cantos, Álvaro, Díaz-Montero, Asunción, García-Orenes, Fuensanta, Lucas-Borja, Manuel Esteban, and de las Heras, Jorge

Subjects

SALVAGE logging, NUCLEAR magnetic resonance, ALEPPO pine, FOREST management, BIOINDICATORS

Abstract

Postfire management actions are used to mitigate damage caused by wildfires. Salvage logging, often employed to restore ecosystem functions in burnt stands, plays an essential role in reducing economic losses and the burn severity of future wildfires. However, its ecological implications for soil functionality still need to be understood, especially in the Mediterranean basin, which is prone to erosion and desertification. This study aimed to investigate the effects of fire on (i) soil organic matter (SOM) quality and composition using differential scanning calorimetry-thermogravimetry (DSC-TG) and solid-state nuclear magnetic resonance (13C CPMAS NMR) and (ii) phosphorus (P) forms using solid-state 31P NMR spectroscopy in a wildfire that affected 3200 ha in southeastern Spain in July 2017. One year after the fire, we monitored four Pinus halepensis Mill. stand categories based on soil burn severity (SBS): unburnt, low SBS, high SBS and high SBS areas with salvage logging (n=36, nine plots per SBS level). We collected soil samples and analysed soil pH, SOM content and SOM quality, along with biological activity indicators (carbon biomass, basal respiration, β-glucosidase, phosphatase activities) and P forms. We ran ANOVA statistical tests to identify significant differences in soil properties among SBS levels. We also established general linear regressions of thermo-recalcitrance values and aromaticity with biological soil quality indices to compare both techniques for detecting changes in SOM quality and composition. The results indicated that fire increased soil pH (up to 0.3), particularly in the plots with higher SBS levels. SOM decreased significantly with increasing SBS level (down to < 5 % at the high SBS level), with a shift from labile compounds (carbohydrates) to more recalcitrant ones (aromatics). Organic P forms were depleted, while orthophosphate levels rose, increasing the risk of irreversible fixation. This study also highlights that DSC-TG is a cost-effective technique for assessing SOM quality changes. Understanding these effects is essential for developing policies to conserve and restore fire-affected areas and to promote practices that enhance soil functionality and resilience. [Display omitted] • SOM drops as temperature rises and goes from labile to more recalcitrant compounds. • Aromatic compounds rise with temperature and burn severity; carbohydrates lower. • Organic P forms were depleted, increasing the risk soil P fixation. • DSC-TG and 31C CPMAS NMR analyses show similar responses for soil biological parameters. • DSC-TG is a cost-effective technique for assessing changes in SOM quality. [ABSTRACT FROM AUTHOR]

Published

2024

81. Tree crowns broken off by windstorms are an unstable life raft for Collembola.

Author

Skłodowski, Jarosław and Sterzyńska, Maria

Subjects

NITROGEN in soils, CARBON in soils, SALVAGE logging, CROWNS (Botany), SOIL invertebrates

Abstract

There are a number of ways to clear the aftermath of a windthrow disturbance of forest stands, the most common practice being to remove all broken trees and broken-off crowns lying on the ground. This practice leads to complete exposure of the soil, which deprives soil invertebrates (including Collembola) of the protection of trees that affords them a chance of surviving. Accordingly, following a windthrow disturbance of pine stands in 2017, a three-year study of collembolan assemblages was undertaken in stands spared from salvage logging. We aimed to test the effect of three different levels of disturbance (severely, moderately and least disturbed stands with a canopy cover of 0–20 %, 20–60 % and 60–90 %, respectively) on the survival of Collembola assemblages and to determine its association with changes in the soil environment and in the LAI index. Additionally, in the severely and moderately disturbed stands, Collembola were sampled between crowns of fallen trees and under the crowns. There were no significant differences in density, species richness and proportions of individuals of belowground "soil" and aboveground "epedaphic" species between the Collembolan assemblages that were associated with the degree of windthrow disturbance and time since disturbance. The study confirmed the presence of a significantly higher number of species and proportion of "epedaphic" species, and a lower proportion of "soil" species in the assemblages sampled under fallen tree crowns than between crowns. Analysis of principal response curves (PRC) yielded unexpected results as it indicated that these differences were significant only in the first year post-disturbance, thus suggesting a very short-lasting protective effect of tree crowns on Collembola, RDA analysis with preselected factors from environmental variables of interest (LAI of standing and fallen tree crowns, soil respiration, soil temperature and humidity, soil pH and soil nitrogen and carbon content) indicated the LAI index as significant for the Collembolan assemblages in the first yearpost-disturbance, soil moisture in the second year, and soil temperature in the third year. This sequence of significant indices over a three year period is compatible with the fallen crowns becoming more and more thinned as a result of needles falling off (from shade to full exposure to sunlight). We nevertheless postulate that at least some trees or their crowns lying on the ground should be left in place during clearance of windthrow-affected tree stands to facilitate restoration of the soil biota. [Display omitted] • We expected contrasting responses of Collembola in various post-windthrow stands. • Divergent patterns of Collembola responses to windthrow disturbances were not found. • Tree crowns lying on the ground attracted epedaphic species more than soil species. • Fallen tree crowns were a refuge for Collembola in the first year after disturbance. • Collembola are not sensitive to severity of wind disturbance. [ABSTRACT FROM AUTHOR]

Published

2024

82. Post-fire management and biocrust development interact in mid-term soil recovery after a wildfire.

Author

García-Carmona, M., Girona-García, A., Keizer, Jan Jacob, Oliveira, Bruna R.F., García-Orenes, Fuensanta, and Mataix-Solera, Jorge

Subjects

SLASH (Logging), SALVAGE logging, SOIL management, WOOD waste, FOREST management, FIRE management

Abstract

Understanding the role of biocrust-forming mosses in soil recovery after wildfires is necessary for assessing the resilience of managed ecosystems. The purpose of this study was to investigate the mid-term impacts of two contrasting post-fire management strategies on soil recovery in eucalypt plantations in north-central Portugal, where a high cover of biocrust-forming mosses developed post-fire, contributing to erosion control. Six years after a wildfire, we examined the legacy effects of salvage logging and two rates of mulch application using logging residues (a standard rate of 8.0 Mg ha-1 and a reduced rate of 2.6 Mg ha-1) on soil properties, and explored the interaction between moss biocrusts and forest management practices on soils. Our findings reveal the resilience of soils to physical disturbance after logging operations, with no persistent negative effects on their physicochemical properties. Although forest residue mulches showed minimal influence on soils after six years, an interesting interaction with moss biocrusts was observed. In the absence of moss cover, direct contact of wood residues with soil at the standard mulch rate promoted higher nutrient content and biochemical activity, potentially attributed to accelerated decomposition processes. Regardless of the management applied, our study highlights the role of moss biocrusts in improving soil aggregation and biochemical processes in the mid-term. However, the severe water repellency observed in these soils may have impeded further biocrust expansion. Understanding the implications of forest management practices on soil recovery after wildfires is imperative for guiding strategies aimed at promoting ecosystem recovery and resilience in fire-prone managed forest ecosystems. • Soils show resilience to logging with no lasting physicochemical impacts. • Post-fire mulching increased soil nutrient content in the absence of moss biocrusts. • Biocrust proliferation may be conditioned by the severe soil water repellency. • Moss biocrust accelerated post-fire soil recovery and improved soil functions. [ABSTRACT FROM AUTHOR]

Published

2024

83. Modeling post-fire mortality of Turkish pine (Pinus brutia Ten.).

Author

Güney, Coşkun Okan, Güney, Aylin, Sarı, Abdullah, Kavgacı, Ali, Ryan, Kevin C., and Hood, Sharon M.

Subjects

TREE mortality, SALVAGE logging, PRESCRIBED burning, FOREST fires, WILDFIRES, FIRE management

Abstract

Turkish pine (Pinus brutia) is a widely distributed species in fire-prone regions of the eastern Mediterranean, where it is of economic and ecological importance. After wildfires, damaged trees are usually salvage logged out of concern that fire-injured individuals will eventually die. While fire is a major cause of Turkish pine mortality, the species has traits, such as thick bark, that should confer some resistance to low-intensity fire. The aim of this study is to develop post-fire tree mortality models for Turkish pine to support post-fire management decisions. We selected 510 Turkish pine trees from four wildfires that occurred in the Mediterranean region of Türkiye in 2018 and 2019. Only fire-damaged trees that had initially survived the fires were selected. We measured tree diameter, height, and bark thickness and fire-caused injuries (crown volume scorched, bark char height, bark char index, cambium kill rating, and ground char index) within two months after fire. Stem-related variables were measured at three different heights (0, 50, and 130 cm). We then quantified delayed mortality for two years after each fire and developed mixed effects logistic regression models to predict probability of mortality. Most Turkish pines (84 %) survived, with the majority of mortality occurring during the first year post-fire. Crown volume scorched and stem damage variables were the most important predictors of mortality. Models were selected based on their explanatory power and practical use in the field. Among these, the most explanatory model includes crown volume scorched and bark char index measured at 0 cm stem height. The suggested model for use in forestry includes crown volume scorched and diameter at breast height. Some trees were able to survive and flush new foliage during the first season after fire despite 100 % crown scorch due to low bud kill. Our results show that Turkish pine can survive fire when stem injury is low. The mortality models can assist managers in making more evidence-based decisions for post-fire management and developing more ecologically sustainable post-fire management operations. • Turkish pine can survive high levels of crown scorch if cambium damage is low. • Turkish pine post-fire mortality is largely apparent at the end of the first year. • Crown scorch and DBH are significant predictors of Turkish pine mortality. • Prescribed burning could be used as a management tool in Turkish pine forests. [ABSTRACT FROM AUTHOR]

Published

2024

84. Understanding hurricane effects on forestlands: Land cover changes and salvage logging.

Author

Sartorio, Ian Pereira, da Silva, Bruno Kanieski, Henderson, Jesse D., Marufuzzaman, Mohammad, Crosby, Michael K., and Tanger, Shaun M.

Subjects

HURRICANE Michael, 2018, MACHINE learning, FOREST landowners, STORM damage, FOREST dynamics, SALVAGE logging

Abstract

Hurricanes can cause catastrophic damage to forestlands, prompting forest owners to engage in salvage logging to mitigate losses and resulting in a sudden and pronounced impact on the timber supply. At the same time, salvaging efforts have profound ecological repercussions, reshaping forest dynamics and affecting vital ecosystem processes. Given the relevant impact of salvage logging to the timber market and its potential ecological effects, evaluating the main factors motivating or limiting its occurrence and the common spatial patterns of salvage sites could offer valuable support for post-storm management efforts following future hurricane events.This study evaluates the land cover change (LCC) of forested areas following hurricanes, recognizing that the change to land cover classification could be derived from storm damage or additional modifications, such as salvage logging activities. We used a set of predictive machine learning models to investigate the primary factors influencing these modifications and determining a possible connection to salvage operations. To serve this purpose, we selected variables that relate to both forest's vulnerability to hurricane disturbance and salvage site selection criteria. This research was centered primarily on the category-five Hurricane Michael, using three additional hurricanes of different intensities to compare results. Random Forest was the bestperforming model for predicting LCC in all cases, having wind speed and distance to nearest wood-consuming mills as the most important features when trained on Hurricane Michael data, emphasizing the relevance of market- and operation-related variables alongside weather disturbance aspects. The findings of our study lead us to infer that the observed modifications in land cover following hurricanes likely represent an additional transformation induced by the removal of damaged timber material, potentially serving as a proxy for salvage logging activities. • Post-hurricane land cover change (LCC) likely indicates salvage logging activity. • Importance of LCC predictors varies between hurricanes events. • Distance to nearest mill among the main factors influencing post-hurricane LCC. [ABSTRACT FROM AUTHOR]

Published

2024

85. Global biomass burning fuel consumption and emissions at 500 m spatial resolution based on the Global Fire Emissions Database (GFED).

Author

van Wees, Dave, van der Werf, Guido R., Randerson, James T., Rogers, Brendan M., Chen, Yang, Veraverbeke, Sander, Giglio, Louis, and Morton, Douglas C.

Subjects

*MODIS (Spectroradiometer), *BIOMASS burning, *ENERGY consumption, *SPATIAL resolution, *PEATLAND restoration, *SALVAGE logging

Abstract

In fire emission models, the spatial resolution of both the modelling framework and the satellite data used to quantify burned area can have considerable impact on emission estimates. Consideration of this sensitivity is especially important in areas with heterogeneous land cover and fire regimes and when constraining model output with field measurements. We developed a global fire emissions model with a spatial resolution of 500 m using MODerate resolution Imaging Spectroradiometer (MODIS) data. To accommodate this spatial resolution, our model is based on a simplified version of the Global Fire Emissions Database (GFED) modelling framework. Tree mortality as a result of fire, i.e. fire-related forest loss, was modelled based on the overlap between 30 m forest loss data and MODIS burned area and active fire detections. Using this new 500 m model, we calculated global average carbon emissions from fire of 2.1±0.2 (±1σ interannual variability, IAV) Pg C yr -1 during 2002–2020. Fire-related forest loss accounted for 2.6±0.7 % (uncertainty range =1.9 %–3.3 %) of global burned area and 24±6 % (uncertainty range =16 %–31 %) of emissions, indicating that fuel consumption in forest fires is an order of magnitude higher than the global average. Emissions from the combustion of soil organic carbon (SOC) in the boreal region and tropical peatlands accounted for 13±4 % of global emissions. Our global fire emissions estimate was higher than the 1.5 Pg C yr -1 from GFED4 and similar to 2.1 Pg C yr -1 from GFED4s. Even though GFED4s included more burned area by accounting for small fires undetected by the MODIS burned area mapping algorithm, our emissions were similar to GFED4s due to higher average fuel consumption. The global difference in fuel consumption could mainly be explained by higher SOC emissions from the boreal region as constrained by additional measurements. The higher resolution of the 500 m model also contributed to the difference by improving the simulation of landscape heterogeneity and reducing the scale mismatch in comparing field measurements to model grid cell averages during model calibration. Furthermore, the fire-related forest loss algorithm introduced in our model led to more accurate and widespread estimation of high-fuel-consumption burned area. Recent advances in burned area detection at resolutions of 30 m and finer show a substantial amount of burned area that remains undetected with 500 m sensors, suggesting that global carbon emissions from fire are likely higher than our 500 m estimates. The ability to model fire emissions at 500 m resolution provides a framework for further improvements with the development of new satellite-based estimates of fuels, burned area, and fire behaviour, for use in the next generation of GFED. [ABSTRACT FROM AUTHOR]

Published

2022

86. Cascading Delays in the Monsoon Rice Growing Season and Postmonsoon Agricultural Fires Likely Exacerbate Air Pollution in North India.

Author

Liu, T., Mickley, L. J., Patel, P. N., Gautam, R., Jain, M., Singh, S., Balwinder‐Singh, DeFries, R. S., and Marlier, M. E.

Subjects

AIR pollution, GROWING season, CROP residues, MONSOONS, RICE, WINTER wheat, SMOKE, SALVAGE logging

Abstract

Over the past two decades, smoke aerosols from crop residue burning have increasingly degraded postmonsoon (October‐November) air quality in north India. We use satellite data and atmospheric modeling to investigate whether cascading delays in monsoon rice growth and postmonsoon fires over 2003–2019 have exacerbated the already poor urban air quality downwind of the fires. Beginning in 2008, a government effort to combat groundwater depletion in Punjab mandated rice sowing until closer to the arrival of monsoon rains. We find evidence of district‐level delays in the timing of both monsoon rice growth and postmonsoon fires, which vary from 1 to 4 weeks with largely an east‐west gradient. These delays are correlated spatially (r = 0.51–0.77), with northern and western districts in Punjab, which rely less on groundwater for irrigation, tending to have the greatest delays. Had the delays in fire activity not occurred, we estimate that cities downwind and near the fire source would have consistently seen less smoke‐related fine particulate matter (PM2.5), on average ranging from 11% to 21% for New Delhi, Bathinda, and Jind during 2008–2019. This net benefit of earlier postmonsoon burning could have been even larger given that (a) a longer rice‐to‐wheat transition could incentivize farmers to find alternatives to burning crop residues; and (b) background PM2.5 is less abundant earlier in the season, decreasing the likelihood of extreme pollution episodes. Strategies aiming to mitigate air pollution while conserving groundwater may be more effective by promoting an earlier monsoon growing season in districts with less groundwater depletion. Plain Language Summary: During the postmonsoon period from October to November, farmers in northwest India have increasingly burned rice residues to quickly clear fields and prepare to plant winter wheat. As seen by satellites, these agricultural fires emit large amounts of smoke that travel to nearby rural areas and populous urban centers, such as New Delhi, contributing to severe air pollution episodes. Beginning in 2008, a government effort to combat groundwater depletion in the state of Punjab mandated rice planting until closer to the arrival of monsoon rains. However, delays in rice planting have led to delays in the timing of postmonsoon agricultural burning. Our modeling results show consistently lower air quality in nearby cities as delayed fires coincide with meteorological conditions that are more favorable for trapping smoke near the surface. Delays in the fire season also shorten the transition period from rice to wheat, thus increasing fire activity further. Strategies aiming to mitigate air pollution in north India may be more effective by stemming the delays in the postmonsoon fire season. Key Points: Punjab, India experienced cascading delays in the monsoon rice growing season and postmonsoon crop residue burning from 2003 to 2019District‐level delays vary from 1 to 4 weeks with a longitudinal east‐west gradient, where western districts experienced the largest delaysDelays in postmonsoon fires have consistently led to increased air quality degradation across north India from 2008 to 2019 [ABSTRACT FROM AUTHOR]

Published

2022

87. Multiple Imputation to Salvage Partial Respondents: Analysis of the Forgotten Joint Score-12 After Total Hip Arthroplasty.

Author

Yamate, Satoshi, Hamai, Satoshi, Kawahara, Shinya, Hara, Daisuke, Motomura, Goro, Ikemura, Satoshi, Fujii, Masanori, Sato, Taishi, Harada, Satoru, Harada, Tetsunari, Kokubu, Yasuhiko, and Nakashima, Yasuharu

Subjects

*TOTAL hip replacement, *MULTIPLE imputation (Statistics), *INTRACLASS correlation, *STATISTICAL reliability, *MISSING data (Statistics), *SALVAGE logging, *RESPONDENTS

Abstract

Background: Missing responses are common when Asian patients complete the Forgotten Joint Score-12 (FJS-12), which is widely used to evaluate total hip arthroplasty (THA). We aimed to provide orthopaedic researchers with a solution for handling missing values in such patient-reported outcome measures (PROMs). Methods: Patients who had undergone primary THA between 1998 and 2016 (n = 1,021) were investigated in 2020. The FJS-12 and 9 other PROMs, including questions related to Asian lifestyle activities, were administered. Risk factors for missing FJS-12 items were investigated. Partial respondents were matched with complete respondents; then, in each pair, the items not completed by the partial respondent were deleted from the responses of the complete respondent. Predictive mean matching (PMM) was performed in an attempt to recover the deleted items, using 65 sets of imputation models. After the missing values had been imputed, we explored patient characteristics that affected the FJS-12, using data from all complete and partial respondents. Results: A total of 652 patients responded to the survey (393 complete and 193 partial respondents). Partial respondents were older, more often female, and less active. Older respondents were more likely to skip items involving the bed, while those who reported a better ability to sit in the seiza style (traditional Japanese floor sitting) were more likely to skip items about chair sitting. The imputed FJS-12 value exhibited excellent reliability (intraclass correlation coefficient for agreement with the true scores, 0.985). FJS-12 values of complete respondents were significantly higher than those of respondents with 4 to 11 missing items (51.6 versus 32.8, p < 0.001). Older age was associated with higher FJS-12 values, which was revealed only via analysis of the multiply imputed data sets (p < 0.001). Conclusions: Analysis of only complete FJS-12 responses after THA resulted in a nonresponse bias, preferentially excluding older, female, and less active individuals and those with a traditional floor living style. Multiple imputation could provide a solution to scoring and analyzing PROMs with missing responses by permitting the inclusion of partial respondents. Level of Evidence: Therapeutic Level III. See Instructions for Authors for a complete description of levels of evidence. [ABSTRACT FROM AUTHOR]

Published

2022

88. Spatial and temporal drivers of post-fire tree establishment and height growth in a managed forest landscape.

Author

Andrus, Robert A., Droske, Christine A., Franz, Madeline C., Hudak, Andrew T., Lentile, Leigh B., Lewis, Sarah A., Morgan, Penelope, Robichaud, Peter R., and Meddens, Arjan J. H.

Subjects

POST-fire forests, TREE height, SALVAGE logging, CONIFEROUS forests, FOREST management, DEAD trees, CONIFERS, TUNNEL ventilation

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

89. Engineering gender, engineering the Jordanian State: Beyond the salvage ethnography of middle-class housewifery in the Middle East.

Author

Hughes, Geoffrey F

Subjects

*MIDDLE class, *ETHNOLOGY, *GENDER role, *SERVICE learning, *BUILT environment, *PUBLIC sphere, *SALVAGE logging

Abstract

The figure of the middle-class housewife or ' rabbat bayt ' emerged in the late 19th-century Arabic-language public sphere amidst the colonial encounter. This gendering of middle-classness responded to a perceived cultural 'lag' yet now itself increasingly signifies backwardness in relation to ideals of middle-classness emphasizing women's education and community service over older norms of purity and propriety. Today, amidst unemployment, discrimination, lack of childcare, lack of safe and reliable public transportation and a highly suburbanized built environment catering to male breadwinners, contemporary Jordanian families must navigate multiple class and gender paradigms. Against a tendency towards salvage ethnography that misrecognizes these constraints as manifestations of deeply held 'traditional' values, I emphasize their historicity, arguing that it is only by recognizing housewifery itself as a state project characteristic of the 20th century that we can appreciate how state-building projects drive the gendering of class roles – and the classing of gender roles. [ABSTRACT FROM AUTHOR]

Published

2022

90. PILOTBIRDS (PYCNOPTILUS FLOCCOSUS) IN THE ACT AND COG'S AOI. RARE? YES. HARD TO FIND? NOT SO MUCH.

Author

FARLEY, KIM

Subjects

*FEATHERS, *SALVAGE logging, *ENDANGERED species, *APPLIED ecology, *COLOR of birds, *CONSERVATION biology

Published

2022

91. Short-term response of ground-dwelling arthropods to storm-related disturbances is mediated by topography and dispersal.

Author

Nardi, Davide, Giannone, Filippo, and Marini, Lorenzo

Subjects

SALVAGE logging, ARTHROPODA, GROUND beetles, LOGGING, COLONIZATION (Ecology), FOREST soils, RAIN forests, TOPOGRAPHY

Abstract

Wind disturbances and consequent salvage logging lead to drastic changes in forest soil conditions, vegetation and microclimate, potentially affecting arthropod communities. In mountain regions, topography is expected to be particularly important to modulate the effect of canopy removal and soil disturbance potentially amplifying the ecological contrast between forest and disturbed areas. Here, we studied the short-term response of ground beetles (Carabidae), spiders (Araneae), and harvestmen (Opiliones) in wind-damaged spruce forests along statistically orthogonal gradients in elevation, slope, and aspect. We addressed three main ecological questions: (i) Does the effect of wind disturbance on diversity depend on topography? (ii) Are there specific taxon-related responses to disturbances?, and (iii) What is the role of dispersal in shaping species assembly dynamics? We generally observed that increasing slope and elevation amplified the differences between undisturbed forest and windfall areas. On the one hand, the diversity of ground beetles and harvestmen seemed to be negatively affected by wind disturbance, causing a loss of specialized forest species with a low rate of colonization of species typical of open habitats. On the other hand, several novel spider species were able to rapidly colonize windfalls and community composition strongly shifted from forest to disturbed areas. Species with long-range dispersal strategies (e.g. flying and ballooning) were those more likely to colonize windfalls. Our findings suggest that disturbance effects on ground-dwelling organisms were modulated by underlying environmental gradients and that short-term response of different taxa was dependent on their dispersal ability. [Display omitted] • Wind disturbance and salvage logging affected forest ground-dwelling arthropods, driving community changes in the short term. • Changes in activity density of ground beetles, spiders and harvestmen after disturbance were mediated by elevation and slope. • Forests at high elevations and on steep slopes were more sensitive to disturbance. • Spiders showed a high species turnover rate with richer communities occurring after disturbance. • Species with long-distance dispersal strategies occurred more frequently in windfalls. [ABSTRACT FROM AUTHOR]

Published

2022

92. Check-Dams and Silt Fences: Cost-Effective Methods to Monitor Soil Erosion under Various Disturbances in Forest Ecosystems.

Author

Kastridis, Aristeidis, Margiorou, Stella, and Sapountzis, Marios

Subjects

SOIL erosion, FOREST fires, ECOLOGICAL disturbances, SILT, FENCES, SALVAGE logging, LOGGING, EROSION

Abstract

The present study was conducted in the suburban forest "Seich Sou", which is located at the north-east of Thessaloniki city (north Greece). "Seich Sou" is one of the most significant suburban forests of North Greece. However, many disastrous events have taken place in the suburban forest during the last 25 years, caused by either human interference or other biotic/abiotic factors, such as insect outbreaks. In the present study, erosion measurements and field data were collected using a combination of silt fences (USLE plots) and depositions retained behind the constructed check-dams, aiming to monitor the impact of the significant biotic and abiotic disturbances (forest fires, insect outbreaks, logging) in Seich Sou forest. Specifically, the aim of this study is to present a cost-effective and time saving methodology towards the achievement of accurate and reliable soil erosion measurements and field data acquisition. Additionally, the installation details, data recording and collection, field work, supplementary materials and the advantages of silt fences and check-dams are presented in detail, as well as the limitations of the methods and the difficulties during the installation, maintenance and data collection period. The proposed methodology could be effectively applied in many environments and in the context of varied purposes, to quantify the erosion and runoff processes with high accuracy, as well as to increase the accuracy of soil erosion modeling performance, through implementation of calibration and/or validation processes, which is a major issue for the scientific community. [ABSTRACT FROM AUTHOR]

Published

2022

93. Application and Accuracy of Unmanned Aerial Survey Imagery after Salvage Logging in Different Terrain Conditions.

Author

Đuka, Andreja, Tomljanović, Kristijan, Franjević, Milivoj, Janeš, David, Žarković, Ivan, and Papa, Ivica

Subjects

SALVAGE logging, GLOBAL Positioning System, AERIAL surveys, FOREST surveys, IPS typographus, DIGITAL elevation models

Abstract

The accuracy of the positioning of the data collected by remote sensing platforms is of great importance in forest and wildlife surveys, salvage logging, soil disturbances after felling operations, fire risk management and many other forestry-based research. The significance of bark beetles in silver fir and Norway spruce stands is an essential factor that can affect the increase in biomass quantity and the reduction of its quality. Due to an Ips typographus (L.) outbreaks in the central part of Croatia from 2016 to 2021, salvage logging was performed in an area of 11,940 ha, with terrain slopes varying from 0 to 172.83%. Two plots of similar sizes (<5 ha) and different terrain conditions (flat vs. sloped terrain) were chosen and were measured in June 2022. Measurements included a total station, a real-time kinematic (RTK) GNSS (Global Navigation Satellite System) terrestrial receiver and an unmanned aerial system (UAS) in order to determine the accuracy of a digital terrain model (DEM) generated by a photogrammetric UAS. In total, 175 checkpoints were marked in the field. Four different GCP (Ground Control Point) classes (5, 10, 15 and 20) were used to compare validation points acquired from the original point clouds, imagery and orthophotos to the reference positions. This study showed that, in terms of a forest area recognition after conducted salvage logging, the use of 10 GCPs for terrain evaluation is necessary even in small areas below 5 ha and regardless of terrain slope. [ABSTRACT FROM AUTHOR]

Published

2022

94. Susceptibility assessment and mapping of Ips typographus (L.) (Coleoptera: Curculionidae) in oriental spruce forests in Artvin, Turkey.

Author

Alkan Akıncı, Hazan, Genç, Çağla, and Akıncı, Halil

Subjects

*IPS typographus, *CURCULIONIDAE, *SOIL conservation, *PHEROMONE traps, *SALVAGE logging, *SPRUCE, *BEETLES, *WATER conservation

Abstract

Ips typographus, which was first identified in 1984 in the oriental spruce forests of Artvin, Turkey, has killed millions of cubic metres of trees. Severe outbreaks of I. typographus following storms resulting in fallen trees and salvage logging done as a part of control activities have caused gaps in the stand canopy of oriental spruce forests. These forests, which have many important functions, such as supplying water, soil conservation and preventing natural disasters in the area they spread, have a fragmented structure because of beetle damages and various traditional utilization practices of the local community. In this study, the local spread of I. typographus in the forests of Hatila Valley National Park and the neighbouring Taşlıca Forest Sub‐District was evaluated, and the areas susceptible to the beetle were determined using the frequency ratio method. A total of 120 pheromone traps were employed in the study. A beetle density map of the study area was produced using the inverse distance weighting interpolation method based on the total number of beetles caught by the traps. Then, the correlation between the regions with high I. typographus density and environmental factors that contributed to this situation were determined using the frequency ratio method. An average 6528.70 beetles were caught by the pheromone traps as a result of this study. The density of the beetles was high in 60.64% of the study area, and an average 10,844.25 beetles were caught by the pheromone traps in these areas. The difference in the total number of beetles between areas with high beetle density and those with low or medium beetle density was significant. It was determined that 32.53% of the study area had very high or high susceptibility to I. typographus. Different parameters such as altitude, slope, aspect, distance to forest roads, stand type, topographic wetness index and area solar radiation were found to be associated with the susceptibility of an area to I. typographus. [ABSTRACT FROM AUTHOR]

Published

2022

95. Topographic Factors Drive Short-Term Understory Revegetation in Burned Areas.

Author

He, Zhixue, Wang, Lei, Luo, Jun, Zhang, Bin, Deng, Qingchun, and Liu, Hui

Subjects

*REVEGETATION, *FOREST fire ecology, *SPECIES diversity, *NUMBERS of species, *SALVAGE logging, *FOREST succession, *FOREST fires, *COMMUNITIES

Abstract

Fire is a disturbance factor in forest ecosystems which has an important influence on vegetation succession. In order to reveal the natural recovery characteristics of the understory vegetation and its response to topographic factors (elevation, slope position, aspect and slope) after fire in subtropical forests, a typical subtropical forest (Xide County, China) was selected as the study area. Based on quadrat surveys and correlation analyses, the main results of this study were as follows. (1) Within four months after a fire, a total of 71 species, 52 genera and 20 families of understory vegetation species were increased, representing a rapid recovery after a fire. The total number of genera and species of understory vegetation increased by 157% and 209%, respectively. (2) Different burning intensities had different effects on the recovery of vegetation species diversity. The change in Margalef richness index was the most significant, increasing by 5.44 and 5.16 in lightly and severely burned areas, respectively. (3) The vegetation community could be divided into six types after restoration. (4) Elevation and slope were significantly correlated with the diversity and distribution characteristics of understory vegetation in the burned area. This study is useful to understand the characteristics of the short-term natural recovery of understory vegetation in subtropical forests after fire, to identify the relationship between vegetation and topographic factors in burned areas, and to provide a scientific basis for vegetation recovery. [ABSTRACT FROM AUTHOR]

Published

2022

96. Mid-Term Changes in Soil Properties after Wildfire, Straw Mulching and Salvage Logging in Pinus halepensis Mill. Forests.

Author

Navidi, Mehdi, Lucas-Borja, Manuel Esteban, Plaza-Álvarez, Pedro Antonio, Carra, Bruno Gianmarco, Parhizkar, Misagh, and Zema, Demetrio Antonio

Subjects

*SALVAGE logging, *ALEPPO pine, *FIRE management, *HIERARCHICAL clustering (Cluster analysis), *MULCHING, *STRAW, *FOREST soils, *SOIL texture

Abstract

The hydrological effects of straw mulching and salvage logging have been widely experimented in the Mediterranean forests affected by wildfires. In contrast, knowledge about the impacts of these post-fire management techniques on the physico-chemical properties of burned soils is poor, especially many years after the fire. In particular, no studies have evaluated the soil changes after the combinations of soil mulching and salvage logging after wildfires in Mediterranean forests. To fill this gap, this study explores the effects of straw mulching and salvage logging, applied individually or in combination to a burnt forest of Pinus halepensis Mill. of central-eastern Spain, on the physico-chemical properties of soil six years after a wildfire. Both the post-fire techniques significantly altered the organic matter, phosphorous, and carbonate contents of the burned soils as well as their C/N (carbon/nitrogen) ratio, while the texture and other chemical properties (pH, electrical conductivity, total nitrogen, potassium, cations/anions, and active limestone) of the soils were not significantly affected by these post-fire treatments. Organic matter (OM) and phosphorous (P) contents increased by 57% and 69%, respectively, in mulched soils in comparison to the burned but untreated plots. In logged soils, the OM increased by 27%, while P decreased by 17%. Salvage logging after straw mulching increased OM, albeit less than under the individual soil treatments (+13%), but noticeably reduced P (−39%). The C/N ratio practically underwent the same variation (+15–20%) after the combination of the two treatments. The principal component analysis and the agglomerative hierarchical cluster analysis applied to the soil properties measured in the plots under the individual and combined management show that the effects of salvage logging on soil properties appear to be more impactful compared to straw mulching. [ABSTRACT FROM AUTHOR]

Published

2022

97. Optimal timing of salvage intratympanic steroids in idiopathic sudden sensorineural hearing loss.

Author

Wu, Yongzhen, Song, Zijun, Wang, Yi, Zhao, Hui, Ren, Tongli, Jing, Jianghua, Gao, Na, Qiao, Liang, and Wang, Jing

Subjects

*SENSORINEURAL hearing loss, *SALVAGE logging, *STEROIDS

Abstract

Background: Salvage intratympanic steroids (ITS) works in patients with idiopathic sudden sensorineural hearing loss (ISSNHL) after failure of initial therapy, but optimal timing of administration is unknown. Methods: Two hundred and seventy patients with ISSNHL were included. Among them, 180 were treated with ITS and standard medical treatment (SMT) and the other 90 received SMT along. The hearing threshold before and after salvage treatment were compared. The relationship between the salvage starting time and hearing recovery was analyzed. Results: The hearing of ITS group improved more than that of the SMT group in all frequency bands. The effect of both strategies decreases with the delay of the starting time. ITS can improve hearing even if being administrated 5 weeks after onset while SMT failed after 3 weeks. Conclusion: Patients with profound ISSNHL can obtain extra hearing recovery from salvage ITS. The earlier salvage starts, the greater the patient benefits. [ABSTRACT FROM AUTHOR]

Published

2022

98. The Impacts of Post-Fire Straw Mulching and Salvage Logging on Soil Properties and Plant Diversity in a Mediterranean Burned Pine Forest.

Author

Ortega, Raúl, Zema, Demetrio Antonio, Valiente, Nicolas, Soria, Rocio, Miralles, Isabel, and Lucas-Borja, Manuel Esteban

Subjects

SALVAGE logging, MULCHING, PLANT diversity, PLANT-soil relationships, SOIL respiration, FOREST biodiversity, FOREST soils

Abstract

In the Mediterranean forests, wildfires and post-fire management actions may degrade soil properties and negatively impact vegetation characteristics. These effects may reduce soil functionality and result in loss of plant diversity. Although straw mulching and salvage logging are commonly carried out in burned forests, their impacts on respiration of forest soils as well as on species richness and evenness of forest plants have been little explored. To fill these gaps, this study has evaluated the soil respiration, different soil physico-chemical properties, as well as plant diversity in a forest of Castilla La Mancha (Central Eastern Spain), burned by a wildfire and then subjected alternatively to salvage logging or straw mulching or to both techniques. Compared to the unburned soils, immediately after the fire mulching and salvage logging alone increased (+146%) and reduced the soil respiration (−9%), respectively, the latter especially in combination with mulching. However, these differences decreased over time, and the mulched and non-logged areas always showed the maximum soil respiration. The post-fire treatments also significantly influenced the main physico-chemical properties of the experimental soils. No evident changes were found for the pH of the logged and mulched soils compared to the control. Mulching coupled with logging did not modify the OM increase due to fire, while the lowest increase was measured in the logged but non-mulched areas. Mulched and non-logged soils maintained high OM and TN one year after fire, but also in areas that were treated with logging (with or without mulching) these parameters were significantly higher compared to the unburned areas. Mulching increased the species richness and evenness, especially when itis carried out without logging, in comparison to the unburned areas. Logging without mulching did not exert negative impacts on plant biodiversity, whose species richness increased and evenness was unvaried compared to the burned and unburned areas. The results of this study can provide land managers easy to measure tools such as soil respiration and plant diversity, which can serve to assess and evaluate the effectiveness of management measures that are taken post-forest fire in order to conserve the delicate ecosystems of the Mediterranean forests. [ABSTRACT FROM AUTHOR]

Published

2022

99. Early vegetation recovery of a burned Mediterranean forest in relation to post-fire management strategies.

Author

Carrari, Elisa, Biagini, Patrizio, and Selvi, Federico

Subjects

POST-fire forests, SALVAGE logging, SOIL seed banks, PLANT diversity, CLUSTER pine, HERBACEOUS plants, PINE

Abstract

The risk of wildfires in the Mediterranean region is expected to increase with climate change. Fire is one of the main drivers of plant diversity and composition, triggering succession processes that vary according to the fire regime and species' regeneration traits. Human management can modulate these processes to promote the recovery of the burned soil-vegetation system, through the application of practices such as salvage logging. Effects of these managements have been studied mostly for coniferous forests, with contrasting results, while little is known about the responses of evergreen broadleaved woodlands. Here, we analysed the 34-month recovery processes of a Quercus ilex forest and an adjacent Pinus pinaster stand in central Italy with respect to their diversity, composition and plant fire-related traits, in relation to three different management strategies applied after fire. These were: (1) no intervention (NT), (2) salvage logging and mulching (SM and SMP for the pine stand), (3) salvage logging, mulching and erosion control measures (e.g. fascines for hill slope stabilization; EC). Overall, the increase of post-fire vegetation cover was negatively affected by SM and EC treatments, while their effects on ɣ- and α-diversity were positive. Species diversity was significantly lower in pine than in broadleaved plots and compositional differences associated with forest type were significant. Abundance of woody species was higher in the unsalvaged sites, except for a few species (e.g. Q. ilex), while herbaceous plants were not affected. Species composition in managed plots was different from control plots after 10 and 22 months, while differences decreased after 34 months. Effects of management strategies on the frequency of resprouters as well as on the proportion of species with persistent vs transient soil seed bank were minor; these traits were mainly driven by forest type. Our findings suggest that non-treatment is the best post-fire management strategy for a fast recovery of woody species in typical Mediterranean broadleaved forests. However, the EC strategy promoted a high diversity level, while not apparently altering species composition compared with the natural post-fire succession process. [ABSTRACT FROM AUTHOR]

Published

2022

100. Severity, Logging and Microsite Influence Post-Fire Regeneration of Maritime Pine

Author

Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Ministerio de Economía, Industria y Competitividad (España), European Commission, Carrillo García, Mª Cristina, Hernando, Carmen, Díez, Carmen, Guijarro Guzmán, Mercedes, Madrigal, Javier, Ministerio de Ciencia, Innovación y Universidades (España), Agencia Estatal de Investigación (España), Ministerio de Economía, Industria y Competitividad (España), European Commission, Carrillo García, Mª Cristina, Hernando, Carmen, Díez, Carmen, Guijarro Guzmán, Mercedes, and Madrigal, Javier

Abstract

We investigated the influence of fire severity, logging of burnt wood, local ecological factors and their interaction on the natural regeneration, survival and growth of maritime pine (Pinus pinaster Ait.), following a fire that took place in 2005. During the period 2006–2020, a sample of 1900 seedlings were monitored, in which three post-fire treatments were applied: (1) Early logging (before seedling emergence); (2) Delayed logging (after emergence); and (3) No management. Multivariate semi-parametric and non-parametric techniques were used to model seedling survival, estimated density and growth of natural pine regeneration. Seedling survival was 31% with a mean density of more than 2000 seedlings/ha at the end of the study period. Logging before seedling emergence was positively related with pine survival and density. Delayed logging resulted in the lowest seedling density and regeneration. Fire severity had a negative influence on regeneration density. The findings indicate that site conditions and fire severity have a stronger influence on natural regeneration of maritime pine than subsequent post-fire management treatments. In order to ensure the presence of maritime pine in pure or mixed stands, silvicultural work is required to control competition from other species and reduce the risk of new wildfires.

Published

2024