Your search keyword '"FOREST management"' showing total 43,751 results

1. Forest conservation by the indigenous Baduy community in the form of customary law

Author

Asteria, Donna, Alvernia, Putri, Kholila, Berliana Nur, Husein, Sabarina Isma, and Asrofani, Farha Widya

Published

2024

2. Forest canopies as nature‐based solutions to mitigate global change effects on people and nature.

Author

Verheyen, Kris, Gillerot, Loïc, Blondeel, Haben, De Frenne, Pieter, Depauw, Karen, Depauw, Leen, Lorer, Eline, Sanczuk, Pieter, Schreel, Jeroen, Vanneste, Thomas, Wei, Liping, and Landuyt, Dries

Abstract

Via sheltering, decoupling and buffering mechanisms, tree canopies have the capacity to mitigate impacts of multiple global‐change drivers on below‐canopy processes and organisms in forests. As a result, canopies have an important potential as nature‐based solution. The optimal combinations of forest canopy structural attributes to jointly mitigate the impacts of multiple global‐change drivers on below‐canopy organisms and processes have received little attention to date. To help solving this research gap, here we review how forest canopies modulate the effects of four important global‐change drivers—climate warming, drought, air pollution and biological invasions—on below‐canopy conditions. Particular attention is paid to mitigating canopy attributes that can be influenced by forest management, including canopy cover, tree species composition and vertical and horizontal structure. Synthesis. We show that the potential of forest canopies to mitigate global‐change effects is highly context‐dependent and that optimal canopy‐based solutions strongly depend on the environmental context and the targeted subcanopy organisms. Hence, holistic approaches, which maximize synergies and minimize trade‐offs, are needed to optimize the solution potential of forest canopies. [ABSTRACT FROM AUTHOR]

Published

2024

3. How Long Is Long? A Bibliographic Review of What Is Meant by the Long-Term Effects of Fire on Soil Properties.

Author

Garcia-Braga, Eduardo, Peñalver-Alcalá, Antonio, Farguell, Joaquim, Francos, Marcos, and Úbeda, Xavier

Abstract

Wildfires pose one of the greatest threats to the world's forests soils. After exposure to fire, forests lose many of their ecological functions; moreover, the repercussions can extend well beyond the forest itself, as the erosive processes attributable to the combustion of vegetation and the soil's lack of protection against rainfall are likely to impact any areas of a catchment, contaminating reservoirs, estuaries and aquifers. A forest fire is not solely, therefore, an environmental issue, but also a social and economic problem. The recovery of a forest is heavily dependent on just how the soil has been affected and how rapidly the latter can be restored. Fire intensity is critical in understanding the temporal evolution of the forest, while its location--a clear determinant of its climate and the ecosystem it occupies--can undermine the functionality of the forest system and is critical in determining the duration of the effects of the fire episode. This paper undertakes a review of the literature with the aim of understanding what might be understood when studies speak of the long-term effects of fire on the soil and when a soil might be considered to have recovered from these effects. What is evident is that many variables have a role to play and that not all soil properties recover at the same rate; indeed, some may never be restored to pre-fire levels. [ABSTRACT FROM AUTHOR]

Published

2024

4. Enhancing ecosystem productivity and stability with increasing canopy structural complexity in global forests.

Author

Xiaoqiang Liu, Yuhao Feng, Tianyu Hu, Yue Luo, Xiaoxia Zhao, Jin Wu, Maeda, Eduardo E., Weiming Ju, Lingli Liu, Qinghua Guo, and Yanjun Su

Subjects

*FOREST productivity, *OPTICAL radar, *LIDAR, *CLIMATE change mitigation, *ECOSYSTEMS, *FOREST management

Abstract

Forest canopy structural complexity (CSC) plays a crucial role in shaping forest ecosystem productivity and stability, but the precise nature of their relationships remains controversial. Here, we mapped the global distribution of forest CSC and revealed the factors influencing its distribution using worldwide light detection and ranging data. We find that forest CSC predominantly demonstrates significant positive relationships with forest ecosystem productivity and stability globally, although substantial variations exist among forest ecoregions. The effects of forest CSC on productivity and stability are the balanced results of biodiversity and resource availability, providing valuable insights for comprehending forest ecosystem functions. Managed forests are found to have lower CSC but more potent enhancing effects of forest CSC on ecosystem productivity and stability than intact forests, highlighting the urgent need to integrate forest CSC into the development of forest management plans for effective climate change mitigation.. [ABSTRACT FROM AUTHOR]

Published

2024

5. Influence of tree mycorrhizal type, tree species identity, and diversity on forest root‐associated mycobiomes.

Author

Singavarapu, Bala, ul Haq, Hafeez, Darnstaedt, Friedrich, Nawaz, Ali, Beugnon, Rémy, Cesarz, Simone, Eisenhauer, Nico, Du, Jianqing, Xue, Kai, Wang, Yanfen, Bruelheide, Helge, and Wubet, Tesfaye

Subjects

*FUNGAL communities, *FOREST biodiversity, *FOREST management, *BIODIVERSITY conservation, *SPECIES, *TREES

Abstract

Summary: Understanding the complex interactions between trees and fungi is crucial for forest ecosystem management, yet the influence of tree mycorrhizal types, species identity, and diversity on tree‐tree interactions and their root‐associated fungal communities remains poorly understood.Our study addresses this gap by investigating root‐associated fungal communities of different arbuscular mycorrhizal (AM) and ectomycorrhizal (EcM) tree species pairs (TSPs) in a subtropical tree diversity experiment, spanning monospecific, two‐species, and multi‐species mixtures, utilizing Illumina sequencing of the ITS2 region.The study reveals that tree mycorrhizal type significantly impacts the alpha diversity of root‐associated fungi in monospecific stands. Meanwhile, tree species identity's influence is modulated by overall tree diversity. Tree‐related variables and spatial distance emerged as major drivers of variations in fungal community composition. Notably, in multi‐species mixtures, compositional differences between root fungal communities of AM and EcM trees diminish, indicating a convergence of fungal communities irrespective of mycorrhizal type. Interestingly, dual mycorrhizal fungal communities were observed in these multi‐species mixtures.This research underscores the pivotal role of mycorrhizal partnerships and the interplay of biotic and abiotic factors in shaping root fungal communities, particularly in varied tree diversity settings, and its implications for effective forest management and biodiversity conservation. [ABSTRACT FROM AUTHOR]

Published

2024

6. Timber harvesting in New Zealand.

Author

Kumar, Vijay and Luo, Yangyuyu

Subjects

LOGGING, FOREST management, PINUS radiata, FARM income, ENVIRONMENTAL impact charges, ENVIRONMENTAL policy, FARM produce prices

Abstract

Sustainable forest management is important to maintain the ability of forests to grow and provide a range of products and environmental services while retaining their natural features. We find that income, radiata pine prices, trade, agricultural expansion, and environmental policies have a significant impact on timber harvesting in New Zealand. Increase in income, radiata pine prices, number of farms, horticulture plantation and bank loans lead to an increase in timber harvesting. On the other hand, environmental policies, especially those to mitigate climate change, decrease timber harvesting. [ABSTRACT FROM AUTHOR]

Published

2024

7. Effects of clonal fragmentation on Pyrrosia nuda depend on growth stages in a rubber plantation.

Author

Xiaocheng Yu, Nan Jin, Rong Bai, Yuxuan Mo, Xiaoyan Pu, Jingchao Li, and Hua-Zheng Lu

Subjects

RUBBER plantations, FOREST conservation, FOREST management, ECOLOGICAL disturbances, BIODIVERSITY conservation, PLANT clones, FERNS, LEMNA minor

Abstract

Introduction: Clonal fragmentation helps to assess clonal plants' growth resilience to human and environmental disturbance. Although clonal integration in epiphytes in tropical rubber plantations is important to understand their role in enhancing biodiversity and ecosystem services, research on this subject is limited. These plantations are typically monospecific economic forests that face increased anthropogenic disturbances. Methods: In this study, we selected the clonal fern Pyrrosia nuda to study its survival status, biomass, maximum quantum yield of photosystem II (Fv/Fm), and frond length in response to the level of clonal fragmentation in a tropical rubber plantation. Results and discussion: The results showed that (1) clonal fragmentation significantly negatively affected the survival rate, biomass, and frond length of clonal plants, but with minimal effects on Fv/Fm at different growth stages; (2) the performance of a ramet (e.g., biomass or frond length) increased with ramet developmental ages and decreased with the number of ramets in a clonal fragment. The age-dependent impacts of clonal fragmentation provide insights into the biodiversity conservation of epiphytes and forest management in man- made plantations. Therefore, to better conserve the biodiversity in tropical forests, especially in environment-friendly rubber plantations, there is a need to reduce anthropogenic disturbances and alleviate the level of fragmentation. [ABSTRACT FROM AUTHOR]

Published

2024

8. Impact of prescribed fire on soil microbial communities in a Southern Appalachian Forest clear-cut.

Author

Rafie, S. A. A., Blentlinger, L. R., Putt, A. D., Williams, D. E., Joyner, D. C., Campa, M. F., Schubert, M. J., Hoyt, K. P., Horn, S. P., Franklin, J. A., and Hazen, T. C.

Subjects

PRESCRIBED burning, MICROBIAL communities, FOREST management, MIXED forests, TEMPERATE forests, SOIL microbial ecology

Abstract

Escalating wildfire frequency and severity, exacerbated by shifting climate patterns, pose significant ecological and economic challenges. Prescribed burns, a common forest management tool, aim to mitigate wildfire risks and protect biodiversity. Nevertheless, understanding the impact of prescribed burns on soil and microbial communities in temperate mixed forests, considering temporal dynamics and slash fuel types, remains crucial. Our study, conducted at the University of Tennessee Forest Resources AgResearch and Education Center in Oak Ridge, TN, employed controlled burns across various treatments, and the findings indicate that low-intensity prescribed burns have none or minimal short-term effects on soil parameters but may alter soil nutrient concentrations, as evidenced by significant changes in porewater acetate, formate, and nitrate concentrations. These burns also induce shifts in microbial community structure and diversity, with Proteobacteria and Acidobacteria increasing significantly post-fire, possibly aiding soil recovery. In contrast, Verrucomicrobia showed a notable decrease over time, and other specific microbial taxa correlated with soil pH, porewater nitrate, ammonium, and phosphate concentrations. Our research contributes to understanding the intricate relationships between prescribed fire, soil dynamics, and microbial responses in temperate mixed forests in the Southern Appalachian Region, which is valuable for informed land management practices in the face of evolving environmental challenges. [ABSTRACT FROM AUTHOR]

Published

2024

9. Modeling Forest Above-Ground Biomass of Teak (Tectona grandis L. F.) Using Field Measurement and Sentinel-2 Imagery.

Author

Ghimire, Santosh, Joshi, Rajeev, Gautam, Jeetendra, and Bhatta, Binod

Subjects

FOREST biomass, TEAK, NORMALIZED difference vegetation index, T-test (Statistics), FOREST management, STATISTICAL sampling, EUCALYPTUS

Abstract

Over the last few decades, remote sensing has emerged as a dependable and cost-effective method for collecting precise data on forest biophysical parameters, aiding in sustainable forest management and global initiatives to combat climate change. This research aimed to develop a model for estimating the above-ground biomass (AGB) of Teak (Tectona grandis L. F.) by combining field measurements with Sentinel-2 earth observation data. The study took place in 36-year-old teak plantation areas within the Sagarnath Forest Development Project in Nepal's Sarlahi district. Field measurements were conducted using a destructive systematic sampling method, employing 10 × 10 m2 sample plots, and the volume of logs was determined using Newton's formula. A total of 30 sample plots were used for calibration, while 10 were utilized for validation purposes. The findings revealed that the average AGB per plot was 814 kg (equivalent to 81.4 t ha−1), with a minimum value of 716 kg (71.6 t ha−1) and a maximum value of 1,060 kg (106 t ha−1). The study utilized five independent variables, namely, the Red band, Green band, Blue band, near-infrared (NIR), and normalized difference vegetation index (NDVI) values from Sentinel-2 imagery data, to develop estimation models. Among the 12 models examined, model M10 proved to be the best fit for accurate AGB estimation (adjusted R2 = 0.9809, RMSE = 0.01269, AIC = −170, and p-value = < 8.39e−21). The equation of the best-fitted model was ln (AGB) = A + B × Red + C × Green + D × Blue2 + E × ln (NIR) + F × ln (NDVI), providing an accurate estimate of AGB. Model validation involved a t-test comparing the observed and calculated AGB values for ten sample plots, demonstrating no significant difference (p-value = 0.3662 > 0.05). This model has the potential to facilitate AGB biomass calculations and carbon stock estimates for teak plantations of similar age groups. [ABSTRACT FROM AUTHOR]

Published

2024

10. The role of validation in optimization models for forest management.

Author

Janová, Jitka, Bödeker, Kai, Bingham, Logan, Kindu, Mengistie, and Knoke, Thomas

Subjects

FOREST management, ECOSYSTEM management, OPERATIONS research, MODEL validation, INDUSTRIAL efficiency, ECOSYSTEMS

Abstract

Key message: A validation convention can be established for forest management optimization models. It consists of (1) the delivery of face validation, (2) performing at least one other validation technique, and (3) an explicit discussion of how the optimization model fulfills the stated purpose. Validation by potential users or external experts is of high importance. Context: Optimization modeling has long assisted the management of forest ecosystems, but the credibility of these models has always been debated with criticisms concerning data quality, failures to include relevant processes in the scope of models, and the inclusion of unrealistic assumptions. Validation is widely considered to be crucial to establishing the credibility of models in general, but how to validate optimization models in particular represents a permanent question generally in operations research. Aims: We aim to synthesize practical recommendations for the development of validation frameworks in the optimization modeling for forest management. Methods: We selected a sample of 46 studies devoted to optimization models to be applied in practice, analysed the contents with respect to validation, and provided a critical review. Results: We (1) clarified the meaning and usage of different validation-related terms that are commonly encountered in the literature, (2) identified and categorised the various methods and frameworks that are used to demonstrate model credibility, and (3) derived organizing principles that helped to suggest improvements in validation frameworks. Conclusions: A practical validation convention can be established and we suggest the convention to consist of three stages. By providing structured and consistent information about validation processes, researchers in forest management optimization can better demonstrate the credibility of their work to readers and potential users. [ABSTRACT FROM AUTHOR]

Published

2024

11. A dataset of 40'000 trees with section-wise measured stem diameter and branch volume from across Switzerland.

Author

Didion, Markus, Herold, Anne, Thürig, Esther, Topuz, Serra, Vulovic, Zeljka, Abegg, Meinrad, Nitzsche, Jens, Stillhard, Jonas, and Glatthorn, Jonas

Subjects

FOREST surveys, FOREST management, TREE felling, TREES, TREE size, DIAMETER, DEAD trees, PARAMETERIZATION

Abstract

Estimating growing stock is one of the main objectives of forest inventories. It refers to the stem volume of individual trees which is typically derived by models as it cannot be easily measured directly. These models are thus based on measurable tree dimensions and their parameterization depends on the available empirical data. Historically, such data were collected by measurements of tree stem sizes, which is very time- and cost-intensive. Here, we present an exceptionally large dataset with section-wise stem measurements on 40'349 felled individual trees collected on plots of the Experimental Forest Management project. It is a revised and expanded version of previously unpublished data and contains the empirically derived coarse (diameter ≥7 cm) and fine branch volume of 27'297 and 18'980, respectively, individual trees. The data were collected between 1888 and 1974 across Switzerland covering a large topographic gradient and a diverse species range and can thus support estimations and verification of volume functions also outside Switzerland including the derivation of whole tree volume in a consistent manner. [ABSTRACT FROM AUTHOR]

Published

2024

12. Climate and humans interact to shape the fire regime of a chir pine (Pinus roxburghii) forest in eastern Bhutan.

Author

Tenzin, Karma, Nitschke, Craig R., Allen, Kathryn J., Krusic, Paul J., Cook, Edward R., Nguyen, Thiet V., and Baker, Patrick J.

Subjects

PINACEAE, NON-timber forest products, LA Nina, PINE, FOREST management, FUELWOOD

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

2024

13. Local adaptation and demographic history of vulnerable conifer Cephalotaxus oliveri in southern China.

Author

Liu, Han‐Jing, Li, Ming‐Hui, Wang, Zhen, Wang, Ting, and Su, Ying‐Juan

Subjects

*POPULATION differentiation, *FOREST management, *LAST Glacial Maximum, *GENE expression, *GENETIC variation, *PHYSIOLOGICAL adaptation

Abstract

Having a comprehensive understanding of genetic differentiation, responses to environmental change and demographic history is critical for genetic improvement and conservation efforts. Forest trees are an excellent resource for understanding population differentiation and adaptive genetic variation due to their ability to adapt to different climates and environments. Cephalotaxus oliveri is a relict conifer endemic to China. In this study, we generated transcriptome data and identified 17 728 high‐quality single‐nucleotide polymorphisms (SNPs) from 18 populations. We found significant negative correlations between expression diversity and nucleotide diversity within and among populations, suggesting that gene expression and nucleotide diversity have a reciprocal relationship when the species adapts to the environment. The analyses of population structure showed that C. oliveri displayed a striking genetic structure with four groups. BayeScEnv and RDA methods detected the signatures of local adaptation, and identified that 738 outlier SNPs were associated with precipitation, temperature and soil conditions across heterogeneous environmental conditions. Approximate Bayesian computation analyses showed that the first and second divergence occurred in the late Miocene (c. 10.075 million years ago [Ma]) and the middle Pleistocene transition (c. 0.815 Ma), respectively. Ecological niche modeling of C. oliveri revealed signs of westward expansion after the last glacial maximum, while it was predicted to experience significant range contractions in future climate change scenarios. Geographical factors and environmental factors in southern China have played a critical role in establishing the current genetic diversity and population structure of C. oliveri. This study provides an important reference for forest resource management and conservation for C. oliveri. [ABSTRACT FROM AUTHOR]

Published

2024

14. Using the 3-30-300 Rule to Assess Urban Forest Access and Preferences in Florida (United States).

Author

Koeser, Andrew K., Hauer, Richard J., Andreu, Michael G., Northrop, Robert, Clarke, Mysha, Diaz, John, Hilbert, Deborah R., Konijnendijk, Cecil C., Landry, Shawn M., Thompson, Grant L., and Zarger, Rebecca

Subjects

*FOREST management, *URBAN trees, *URBAN forestry, *PUBLIC spaces, *PROPERTY damage, *ENVIRONMENTAL justice, *ECOLOGICAL houses

Abstract

Background: Public engagement is needed to make sure urban forestry management efforts align with the values of the public being served. Noting this, we determined current and desired urban forest access of Florida (United States) residents using the criteria from the 3-30-300 rule (i.e., 3 trees visible from home, 30% urban tree canopy in neighborhood, and a green space within 300 meters of home). Methods: A survey of 1,716 Florida residents was conducted to assess canopy coverage and green space access. Respondents were then asked if this level of urban forest access was sufficient. We also asked their perceptions of the benefits and drawbacks of urban trees and whether they had any negative interactions with trees in the past. Results: We found that 37.3% of Florida residents met all 3 criteria of the 3-30-300 rule. Despite this, half the respondents would prefer more trees in their neighborhoods. When asked to name the top benefits provided by trees, the most common responses were shade, beauty, and attracting wildlife. The most common drawbacks to urban trees included the risk of damage to property, leaves/debris, and fears regarding storms and hurricanes. Conclusions: Florida residents largely value their urban forest and would like to see it maintained or enhanced. Improving access to greenspaces for recreation is the most pressing concern for urban forest managers in Florida looking to meet the requirements of the 3-30-300 rule. Results from this study can inform urban forest management efforts in Florida and beyond. [ABSTRACT FROM AUTHOR]

Published

2024

15. Recent tree diversity increase in NE Iberian forests following intense management release: A task for animal‐dispersed and drought‐tolerant species.

Author

Selwyn, Miriam, Pino, Joan, and Espelta, Josep Maria

Subjects

*FOREST biodiversity, *DROUGHTS, *ENVIRONMENTAL history, *FOREST resilience, *LAND use, *FOREST regeneration, *FOREST management

Abstract

Under increasing human‐related threats to forests, many studies suggest that increasing tree species diversity may boost forest resilience by enhancing the range of species' responses to disturbances. However, it remains unclear whether passive or active forest management strategies should be applied to increase tree diversity. This issue would benefit from investigating which management and environmental factors, together with species' functional traits, influence temporal changes in tree species diversity.We explored the influence of the bioclimatic region, land‐use history, forest cover, protection, management, forest structure and changes in temperature and precipitation, to explain tree species diversity changes in NE Iberian forests, by comparing 3141 plots from the Spanish National Forest Inventory sampled between 1989 and 2016. Moreover, we assessed which species' functional traits (dispersal habit, drought and shade tolerance) were most relevant for diversity changes.After 27 years, tree species richness and diversity moderately increased in the tree and regeneration layers. This trend occurred mostly in long‐established, non‐recently managed forests and in those with a lower initial basal area. Increasing temperature had negative effects for diversity increase in the tree layer but positive for the regeneration compartment, while decreasing precipitation showed the opposite effects.Tree species with higher drought tolerance, and especially those animal‐dispersed ones arriving from the regional pool, mostly contributed to the local diversity increase. This pattern occurred in all forest types, although the taxonomic array of species varied.Synthesis and applications. The main drivers influencing the passive increase in tree species diversity suggest a primary role of diminishing forest exploitation in this recovery process, fine‐tuned by climatic changes. This ecological scenario has particularly favoured animal‐dispersed tree species with higher drought tolerance, which mostly led the diversity increase. A higher presence of such highly mobile and drought‐tolerant species can be crucial to increase functional diversity and, ultimately, increase forest resilience under future scenarios of greater aridity. In light of these results, management strategies should continue fostering the restoration of diversity in once intensively exploited forests while ensuring the maintenance of the already gained tree species diversity. [ABSTRACT FROM AUTHOR]

Published

2024

16. Fine-scale forest structure, not management regime, drives occupancy of a declining songbird, the Olive-sided Flycatcher, in the core of its range.

Author

Hack, Benjamin, Cansler, C Alina, Peery, M Zachariah, and Wood, Connor M

Subjects

*SONGBIRDS, *BIRD declines, *FLYCATCHERS, *FOREST management, *BIRD habitats

Abstract

Climate change, management legacies, pest outbreaks, and fire regimes are combining to pose a growing risk of broad-scale loss of forest cover throughout western North America. Already, habitat changes have been linked with declines in numerous bird species; understanding the relative importance of management regimes and habitat structure may be critical to conserving at-risk species. The Olive-sided Flycatcher (Contopus cooperi) is a declining songbird associated with tall, open forests in California's Sierra Nevada, the core of its breeding range, where the management regimes of the National Park Service (NPS) and U.S. Forest Service (USFS) have led to divergent forest conditions over the past century. We combined a landscape-scale passive acoustic monitoring program, the BirdNET animal sound identification algorithm, and single-season occupancy models to explore the relationships between Olive-sided Flycatchers in the Sierra Nevada and both management regimes and fine-scale forest structure. Olive-sided Flycatcher site occupancy increased as canopy cover decreased relative to mean tree diameter, which is consistent with their preference for mature, open forests. These "open forest" conditions were most prevalent on NPS-managed lands, which is consistent with the assumption that the NPS management regime is more faithful to the historical conditions that had supported a larger Olive-sided Flycatcher population than at present. Thus, the support we found for a positive association with USFS-managed lands after controlling for "open forest" suggests that other habitat features are also important. Our results suggest that conservation strategies for Olive-sided Flycatcher breeding habitat should prioritize the protection and generation of open canopies in areas with large trees, as well as the identification of other important habitat features. Prescribed fire, mechanical thinning, and a return of Indigenous forest management practices could help to restore historical forest and fire conditions beneficial to this and other species with similar habitat requirements. Fine-scale alterations to forest structure can be implemented much more rapidly and at much broader scales than the imposition of strict protected status, suggesting that there may be multiple pathways to conservation when species respond to habitat at fine spatial scales. [ABSTRACT FROM AUTHOR]

Published

2024

17. Application of the Global Uncertainty and Sensitivity Analysis to assess the importance of deadwood characteristics for forest biodiversity.

Author

Mazziotta, Adriano, Kangas, Annika, De Pellegrin Llorente, Irene, Tikkanen, Olli-Pekka, and Eyvindson, Kyle

Subjects

*BIODIVERSITY conservation, *SENSITIVITY analysis, *CLIMATE change mitigation, *BIOMASS estimation, *FOREST biodiversity, *FOREST management, *MINORS, *CLIMATE change

Abstract

Data acquisition for sustainable forest management has focused on obtaining high quality information to estimate biomass. Improving the quality of non-timber sustainability indicators, like deadwood volume, has been a minor interest. To explore how inventory approaches could be improved, we applied a Global Uncertainty and Sensitivity Analysis (GUSA) to evaluate which factors propagate more errors in deadwood modelling and how better data collection can minimize them. The impact of uncertainty on deadwood characteristics (diameter, collapse ratio, decay class, tree species, and position) was explored under stakeholders´ preferences, management actions, and climate change scenarios. GUSA showed that removing the prediction error in deadwood tree species and diameter would alter the most the total uncertainty in deadwood volume. We found that assessment of high deadwood volume was less uncertain for the scenarios where small deadwood items were left decaying on the forest floor (BAU) and for high-end climate change scenario (RCP8.5) which resulted in lower deadwood accumulation in forest stands and therefore also in lower likelihood of erroneous estimates. Reduced uncertainty in tree species and diameter class will elevate the certainty of deadwood volume to a similar level achieved in living biomass estimation. Our uncertainty and sensitivity analysis was successful in ranking factors propagating errors in estimate of deadwood and identified a strategy to minimize uncertainty in predicting deadwood characteristics. The estimation of uncertainty in deadwood levels under the scenarios developed in our study can help decision makers to evaluate risk of decreasing deadwood value for biodiversity conservation and climate change mitigation. [ABSTRACT FROM AUTHOR]

Published

2024

18. Measurement of the effectiveness of an educational program inspired by indigenous knowledge for forest management, applied to Forest Engineering students at the National University of Central Peru, using the neutrosophic 2-tuple linguistic method.

Author

Lisbet, Melina, Caballero Salas, Rubén Gelacio, Baltazar Ruiz, Milciades Aníbal, Caballero Salas, Carlos Eduardo, Ayllon Pinchi, Guillermo, Canteño Gavino, Rolando Carlos, Reategui del Aguila, Keneth, and Ortega Chávez, Wilmer

Subjects

*TRADITIONAL knowledge, *FOREST management, *EDUCATIONAL tests & measurements, *ENGINEERING students, *KNOWLEDGE management, *STUDENT health

Abstract

The "guide to Asháninka knowledge for forest management" is a document prepared by academics and scientists from the National University of Central Peru (NUCP) in the Faculty of Forestry Engineering, which includes the knowledge of this indigenous people about forest nature. Despite being ancestral knowledge, we believe that it can serve as a complement to the scientific study of the subject since it is based on knowledge accumulated over centuries of experience. The main purpose of this article is to determine the influence of the "Ashaninka knowledge guide for forest management" on the learning level of NUCP Forest Engineering students. To accomplish these objectives, Asháninka knowledge was compiled, and the learning guide was designed and applied to the students. 36 students from the faculty were taken as part of the study, to whom two tests were administered, one before studying the guide and another after. The tests consisted of questionnaires on knowledge about the guide and the forests. A neutrosophic linguistic scale was used for respondents to answer both tests. The advantage of this methodology is that experts could evaluate more easily with the help of natural language, in addition to the fact that the incorporation of neutrosophy helps to take into account indeterminacy and therefore there is more accuracy. Specifically, the Neutrosophic 2-tuple linguistic method was used. The results were converted to crisp numbers and the evaluations of the two tests were compared with the help of the Wilcoxon test. [ABSTRACT FROM AUTHOR]

Published

2024

19. The effects of the synergy of community and government management practices on forest reserves in Ghana: the case of Mpameso forest.

Author

Nyamekye, K.A., Afram, M.K., and Wireko-Gyebi, R.S.

Subjects

*FOREST reserves, *FOREST management, *THEMATIC analysis, *SUSTAINABILITY

Abstract

There is increasing evidence of the high deforestation rate of Ghana's forest reserves as a result of non-proper management. This study focused on deepening the understanding of the prospects and challenges in the management of the Mpameso Forest Reserve in Ghana. Based on a qualitative study, major stakeholders such as traditional heads, community members, and members of the forestry department were interviewed. Data were analyzed using thematic analysis. Results show that respondents were aware of the relevance of the forest reserve. Though there is a collaborative effort between the forestry commission, the chiefs, and the communities, challenges such as a lack of collaboration between chiefs and the forestry department in the district, and encroachment by community members, among other factors, affected the sustainability of the forest reserve.. The study recommends an alternative livelihood should be provided, consideration for the creation of an ecotourism park, and intensification of the enforcement of laws protecting the forest reserve and its sanctions. [ABSTRACT FROM AUTHOR]

Published

2024

20. Physiological and hormonal responses of drought‐stressed Eucalyptus seedlings infected with Neofusicoccum kwambonambiense.

Author

Santos, Beatriz, Pinto, Glória, Berenguer, Helder, Correia, Barbara, Amaral, Joana, Gómez‐Cadenas, Aurelio, and Alves, Artur

Subjects

*EUCALYPTUS, *EUCALYPTUS globulus, *FOREST management, *FUNGAL colonies, *JASMONIC acid, *ABSCISIC acid

Abstract

The contribution of Eucalyptus globulus plantations to timber production for pulp, paper and energy production may be hampered by climate change. It is expected that Eucalyptus productivity may be affected through drought stress and changes to both pathogen distribution/pathogenicity and host–pathogen interactions. The impact of the fungal pathogen Neofusicoccum kwambonambiense on E. globulus, causing cankers and dieback, is well known but the impact of drought on disease development is still understudied. Our aim was to study the effect of drought on N. kwambonambiense infection by inoculating E. globulus plants under well‐watered conditions or with water limitation. Non‐infected plants for both water regimes were also analysed. Morphophysiological, biochemical and hormonal parameters were assessed 65 days post‐inoculation. Inoculation under conditions of water stress decreased water potential and photosynthetic efficiency and increased abscisic acid, jasmonic acid and lipid peroxidation. Water‐stressed infected plants also showed higher fungal colonization and external lesion length in comparison with well‐watered inoculated plants. Our results indicate that drought increased E. globulus predisposition to N. kwambonambiense infection and may also have promoted a change in the lifestyle of the fungus. Identifying host–pathogen interaction responses under different stress conditions is necessary to provide knowledge for decision‐making in the management of forest systems in general and of Eucalyptus production in particular. [ABSTRACT FROM AUTHOR]

Published

2024

21. Preferences for woodland activities and forest features as predictors of well-being after forest visits: Evidence from a nationally representative survey in Slovakia.

Author

Výbošťok, Jozef, Pichlerová, Magdaléna, Lamatungga, Kiki Ekiawan, Tamatam, Dhanalakshmi, Önkal, Dilek, Halaj, Daniel, and Pichler, Viliam

Subjects

*WELL-being, *FOREST conservation, *FORESTS & forestry, *FOREST management, *SUBJECTIVE well-being (Psychology)

Abstract

The link between subjective well-being (SWB) and forest visits is increasingly driving the development and preservation of restorative forest environments in numerous countries. However, there is limited knowledge regarding the effect of people's preferences for forest patterns and activities on this connection. Here we investigated whether associations exist between the preferences for certain forest features and activities, and the SWB increase and stress reduction in response to forest visits. A nationwide digital survey was administered to a representative sample of the Slovak population. The recollection-based data obtained from one thousand respondents were analysed through agglomerative clustering and ordinal regression. The analyses revealed that improved SWB and stress reduction were associated with preferences for uneven-aged forests, forest smell, as well as recreational, but not provisioning forest activities. The respective interrelationships explained up to 20% of SWB increase and stress reduction after forest visits. The results suggest that recollection-based study findings can be generalized for real-world forests and that forest management can contribute to the well-being of forest visitors by shaping the diversity of woodlands and their sensory experiences. [ABSTRACT FROM AUTHOR]

Published

2024

22. Diversity of forest structures important for biodiversity is determined by the combined effects of productivity, stand age, and management.

Author

Hämäläinen, Aino, Runnel, Kadri, Ranius, Thomas, and Strengbom, Joachim

Subjects

*FOREST productivity, *FOREST biodiversity, *FOREST conservation, *FOREST management, *BIODIVERSITY conservation, *BIODIVERSITY, *DECIDUOUS forests

Abstract

In forests, the amount and diversity of structural features with high value for biodiversity, such as large trees and dead wood, are affected by productivity, stand age, and forest management. For efficient conservation of forest biodiversity, it is essential to understand the combined effects of these drivers. We used data from the Swedish National Forest Inventory to study the combined effects of productivity, stand age, and management for wood production on structures with high value for biodiversity: tree species richness, large living trees, dead wood volume, and specific dead wood types. Forest management changed the relationship between productivity and amount or diversity of some of the structures. Most structures increased with productivity and stand age, but decreased due to management. The negative effect of management was greatest for structures occurring mainly in high-productivity forests, such as deciduous dead wood. Thus, biodiversity conservation should target high-productivity forests to preserve these structures. [ABSTRACT FROM AUTHOR]

Published

2024

23. A Century of Change in a Mature Urban Forest: the Thain Family Forest of the New York Botanical Garden, Bronx, New York.

Author

Nagele, Eliot, Ashton, Mark S, Harris, Thomas B, Forrest, Todd A, DeLuca, Erica A, Martello, Maria E, and Duguid, Marlyse C

Subjects

BOTANICAL gardens, FOREST management, BIOLOGICAL extinction, NATIVE species, HARDWOODS, SPECIES diversity, OAK

Abstract

Urban forests have long been understudied, resulting in a scarcity of long-term data to guide future management. The New York Botanical Garden in New York City has been stewarding the 20 ha Thain Family Forest since 1895. Using inventory data between 1937 and 2021, we document how structure, diversity, and composition of the forest have changed over the past century. Our results show an increase in the proportion and diversity of hardwood species, including oaks, hickories, red maple, black cherry, and American beech, following the loss of a dominant species, eastern hemlock. Despite changes in composition, we find no significant differences in the mean basal area, density, and tree diameter of canopy trees (diameter at breast height [DBH] ≥ 15 cm) from 1937 to 2021. Assessments of small diameter stems (DBH ≥ 2.54 cm) show increasing density, decreasing diameter, and increasing richness from 1985 to 2021, suggesting a period of understory recruitment/regeneration. During this time, native species have been dominant in both overstory and understory strata. These observations mirror trends recorded in hemlock–hardwood and oak–hickory forests region-wide, indicating that, with continued conservation and active management, urban and rural forests may develop in similar patterns and encouraging regional approaches to forest management. Study Implications: Urban forests have long been understudied, resulting in a scarcity of long-term data to guide future management. Over the past century, the 20 ha Thain Family Forest in New York City has experienced a significant change in species composition, with an increase in the proportion and diversity of hardwood species following the loss of eastern hemlock. Despite these changes, forest canopy structure has remained stable. These observations mirror those observed in hemlock–hardwood and oak–hickory forests regionwide, suggesting that with continued conservation and active management, urban and rural forests may develop in similar patterns. The results of this study support continued investment in the research and management of urban forests as a comprehensive part of regional forest management efforts. [ABSTRACT FROM AUTHOR]

Published

2024

24. Evaluation of the Root Rupture Method for Controlling Belowground Spread of the Oak Wilt Pathogen (Bretziella fagacearum) in Northeast Wisconsin, USA.

Author

Yang, Anna, Haugen, Linda M, Mausel, David L, Lampereur, John, Stueck, Tommy, Montgomery, Rebecca A, and Juzwik, Jennifer

Subjects

RED oak, FOREST health, FOREST management, OAK, VALUE (Economics)

Abstract

Oak wilt, caused by the pathogen Bretziella fagacearum , is a destructive disease on oak (Quercus) species in the United States. Established methods to control the belowground spread of oak wilt are not appropriate in all circumstances; thus, forest health managers have a strong need for alternative methods for disease control. We evaluated the effectiveness of operational stump excavation treatments (i.e. "root rupture" method) applied between 2004 and 2014 to control belowground spread of oak wilt on two forests in northeast Wisconsin, USA. The root rupture method achieved a high level of disease control (≥85% of evaluated disease infection centers) for 5 years by harvesting red oak trees within infection centers and uprooting the stumps and associated root mass. The likelihood of disease control success depended on the initial size of the infection center that was treated, with larger infection centers being less likely to be contained with a single treatment than small infection centers. This study highlights the importance of early detection and prompt management in oak wilt suppression programs. Study Implications: Forest management agencies and organizations in the North Central United States continue to face oak wilt epidemics. No single tool or treatment method ensures complete containment of oak wilt; thus, most managers carefully consider all the tools and techniques available to them and determine what best suits their budget and land use priorities. Stump excavation (i.e. "root rupture" method) is a cost-effective treatment for halting belowground spread of the oak wilt fungus, Bretziella fagacearum , that can achieve a high level of disease control. In northern red oak (Quercus rubra) stands with high economic value, this treatment can be applied as a group selection, with the value of the timber potentially offsetting the cost of treatment. The opportunity for complete disease control decreases as oak wilt infection centers increase in size; thus, monitoring and early control actions are critical. [ABSTRACT FROM AUTHOR]

Published

2024

25. Estimating the economic value of timber products potentially saved from wildfires by improving forest road standards.

Author

Erkan, Neşat, Akay, Abdullah E., Bilici, Ebru, Uçar, Zennure, and Güney, C. Okan

Subjects

FOREST roads, VALUE (Economics), TIMBER, WILDFIRES, FIREFIGHTING, FOREST productivity, WILDFIRE prevention

Abstract

The aim of this study was aimed to estimate the economic value of timber products from the forest stands that are potentially saved from wildfires after improving road standards. The study was implemented in the Alanya Forest Enterprise Directorate (FED) in the Mediterranean city of Antalya, Turkey. In the solution process, the possible increase in the accessible forest areas with improved forest road standards was investigated by using GIS-based network analysis methods. In the next step, the timber production in the forest areas potentially saved from the wildfire was calculated based on parameters such as site index, rotation period, and stand structure. Then, the economic value of timber product types was calculated using market prices. The results indicated that increasing the design speed on improved forest roads reduced the arrival time of firefighting teams to the forests, which consequently increased the accessible forest areas within the critical response time. It was found that the accessible forest areas within the critical response time increased from 47,231 hectares to 59,354 hectares when standards of the forest roads were improved. This saved 12,123 hectares of additional forest area from the wildfire in the Alanya FED. The cost of road improvement activities was estimated at US$ 2,286,998. It was calculated that the total timber products obtained from the forest area potentially saved was about 94,721 m3, and worth US$7,545,579 at market prices. The results can be used by policymakers in determining the potential investments in improving forest road standards to enhance the efficiency of firefighting activities. [ABSTRACT FROM AUTHOR]

Published

2024

26. Economic analysis of the feller buncher in Brazilian Eucalyptus plantations: modeling with time series.

Author

Munis, Rafaele Almeida, Camargo, Diego Aparecido, Rocha, Qüinny Soares, Pandolfo, Paloma Trevisan, da Silva, Richardson Barbosa Gomes, and Simões, Danilo

Subjects

EUCALYPTUS, TIME series analysis, NET present value, LOGGING, FOREST management, LUBRICATING oils

Abstract

In the context of increased demand for timber, forest managers must consider best practices in forest management and harvesting operations. Depending on the harvesting systems adopted, the uncertainties of the cost components may reflect the volatility of productivity and the expected value of the project. We investigated whether the uncertainties of the cost components have an influence on the productivity volatility and the expected value of the mechanized timber harvesting investment project with a feller buncher. Monthly feller buncher productivity volatilities were measured based on the absolute value of the percentage variation in the deviation of the cost and productivity components. We modeled productivity and cost components using geometric Brownian motion to estimate project value. Productivity showed a strong positive correlation with the cost components of economic depreciation, supervisor labor, fuel, and operator labor. Lubricating oil and economic depreciation were the most volatile cost components. Considering the deterministic economic analysis, the net present value was USD 3,849,619. When considering the probabilistic economic analysis, the average net present value was USD 187,319 ± USD 1,275,033. We verified that economic depreciation and fuel influenced feller buncher productivity. The uncertainties of these components affect the economic viability of the feller buncher in Eucalyptus plantations. [ABSTRACT FROM AUTHOR]

Published

2024

27. From education to rehabilitation: empowering farming communities through extension services for landscape restoration.

Author

Ullah, Ayat, Zeb, Alam, Shah, Ashfaq Ahmad, and Bavorova, Miroslava

Subjects

AGRICULTURAL extension work, AGRICULTURE, SELF-efficacy, FOREST conservation, POWER (Social sciences), LANDSCAPE assessment

Abstract

Public extension services disseminate awareness and promote community participation in landscape restoration efforts around the world. Due to the importance of forest restoration programs in Pakistan, access to public extension services can have a significant impact on community mobilization in reforestation efforts. This study quantifies the social and landscape restoration impacts of extension services in communities with and without access to extension services. It also identifies the factors influencing community-level access to extension services in the Hindu Kush Himalaya (HKH) region of Pakistan. The results of our study showed that those communities that had access to extension services were more active and effective in restoring forest landscapes than those that didn't have access to extension services. Extension services increased awareness of forest conservation, adoption and implementation of forest management strategies, changes in attitudes and behaviors, and social empowerment through capacity building. The findings suggested that several factors, including no roads to a village on hilltop, proximity/distance of a village to the extension office, lack of community cooperation with extension officers, weak government support for extension agents and elite capture in the communities restricted communities' access to extension services. Based on the findings of the study, we recommend the development of infrastructure, especially roads to uphill villages, and the recruitment of more extension agents to include marginalized communities in extension programs. [ABSTRACT FROM AUTHOR]

Published

2024

28. The Study of Peri-Urban Soil Contamination in the Kenitra Region, Morocco -- Characterization and Assessment Using a Statistical Approach.

Author

El Idrissi, Yahya, Mabrouki, Jamal, Baghdad, Bouamar, El Belghiti, Mohammed Alaoui, El Azzouzi, Mohammed, El Hasini, Soukaina, El Mekkaoui, Abdelali, Hassani, Kenza Kadiri, and El Azzouzi, Elhabib

Subjects

SOIL pollution, SOLID waste, WASTE management, PHOSPHONIC acids, FOREST management, FORESTS & forestry

Abstract

The peri-urban solid waste in the Kenitra region is experiencing a significant change in terms of quantity and quality. High concentrations of both inorganic and organic materials are present in these wastes, posing a significant threat of pollution. This research sought to analyze the extent of soil contamination by heavy metals, providing valuable insights to prompt proactive interventions and propose alternative solutions for sustainable waste management. The objective of this work was to study peri-urban soil contamination in the Kenitra region-Morocco. For that purpose, several soil contamination indicators were analyzed, namely: nitrogenous, fertilizer and heavy metals concentration, soil pH, etc. The analyzed soil samples were taken from water from the different points at the levels of the studied region. The analysis shows that the studied soils are polluted with Zn, Mg, Cu, Ni, Cr, Cd, Pb, and other chemical elements. The results obtained suggest a correlation between soil pollution and the concentrations of the measured heavy metals. Furthermore, the analysis shows that heavy metals, contamination is particularly related to the presence of lead, cadmium, and zinc. The zinc contamination in the soil is about 390 mg/kg for a standard of between 0.2 and 2 mg/kg. Lead concentrations are 53 mg/kg for a standard of 0.3 mg/kg. On the basis of Moroccan standards, the soil is contaminated by lead, cadmium, and zinc. [ABSTRACT FROM AUTHOR]

Published

2024

29. Investigation of Post-Fire Peatland Natural Recovery, South Kalimantan, Indonesia.

Author

Wahyono, Sri Cahyo, Kurnain, Ahmad, Nata, Iryanti Fatyasari, and Asyari, Mufidah

Subjects

PEATLANDS, CARBON, PHOSPHOROUS acid, PHOSPHONIC acids, FOREST management, FORESTS & forestry

Abstract

Peatlands play a critical role in global habitats since are composed of heterogeneous materials and chemical reactions. Peatland fires significantly change the chemical characteristics of its soil, such as carbon (C), nitrogen (N), phosphorus (P) and potassium (K) content. This study aimed to measure peatland recovery only on those soil chemical characteristics based on two different times of sampling that are five years (Yr+5) and seven years (Yr+7) after the fires in 2015 (taken in 2020 and 2022). This study was conducted in the Balangan River - Batangalai River peat hydrological unit, South Kalimantan, Indonesia. Soil samples were collected at nine different locations, including are six locations in the areas that experienced fires in 2015 and three locations in the areas that did not experience fires. Those soil samples were taken with excavated pits at each sample location at each depth of 10, 20, 30, 40 and 50 cm. This study found that the carbon content in the post-fire area increased by 22.00% and in the natural area by 9.90%. The nitrogen content in the post-fire area increased by 1.94% and in the natural area by 1.17%. The potassium content in the post-fire areas increased by 16.33% and in the natural areas by 4.44%. The phosphorus content in the post-fire area increased by 3.18% and in the natural area by 5.11%. C/N ratio increased by 19.68% and C/P ratio increased by 18.24%. Overall, the increase in carbon, nitrogen, potassium, phosphorus, C/N ratio and C/P ratio in post-fire and natural peatlands indicates an improved condition. This study can provide supporting information for the regulator, management or expertise of the land and forest rehabilitation to speed up the recovery process. [ABSTRACT FROM AUTHOR]

Published

2024

30. Forest stand dynamics of a short‐stature tree species: Ecological knowledge for sustainable forest management.

Author

Fajardo, Alex, Moreno‐Meynard, Paulo, and Soto, Daniel P.

Abstract

Worldwide, the implementation of forest management guidelines has tried to mimic natural forest dynamics. The Oliver forest stand dynamics model has been successful in bridging natural forest dynamics associated with the disturbances of various spatial scales and silviculture also related to various spatial scales of management. However, the application of this model (and others) is restricted to tall forests. We claim here that the general research and commercial interest bias towards tall tree species has permeated silviculture and forest management, and that both the stand dynamics of short‐stature tree species and their treatment have remained largely unexplored and unknown. Using one short‐stature tree species, Nothofagus antarctica, as a model system, we show that this species indeed follows a stand dynamic different from other tall Nothofagus‐dominated forests in southern South America. This species forms short, mature, even‐aged stands without large canopy gaps that promote tree regeneration. With this in mind, we propose a conceptual ecology‐based silvicultural guideline focusing on the creation of strip cuts or gaps along with topsoil scarification to ensure regeneration and forest reorganization after disturbances. Policy implications. The acknowledgement that short‐stature tree species follow a stand dynamic different from tall tree species necessarily implies that they must be managed differently. This recognition, along with the implementation of ecology‐based silvicultural recommendations, represents strong arguments to make modifications to forest legislation that, together, must be aimed at conservation and sustainable forest management. [ABSTRACT FROM AUTHOR]

Published

2024

31. Revealing hidden diversity and community dynamics of land snails through DNA barcoding: implications for conservation and ecological studies.

Author

Mohammadi, Sima, Ahmadzadeh, Faraham, Saglam,, Ismail Kudret, and Ruiz, Enrico Alejandro

Subjects

GENETIC barcoding, SNAILS, BIOINDICATORS, FOREST management, SOIL animals, WILDLIFE conservation

Abstract

Introduction: Land snails play a crucial role in maintaining ecosystem sustainability within their habitats. Therefore, understanding the characteristics of their communities is vital for ecological studies and the development of effective conservation strategies. In this study, land snail communities inhabiting the Hyrcanian forest were identified and the variations in their community composition along elevational gradients were investigated. Methods: Snail samples were collected from three distinct elevations in three different forest locations within the Hyrcanian area of Iran. This study utilized DNA barcoding to identify land snail species. By employing statistical analyses such as ANOVA and PERMANOVA, significant differences in the features of snail communities across different elevations were examined. Concurrently, soil samples were collected from each site to assess soil physicochemical parameters about snail presence. Result: Through this comprehensive analysis, a total of 10 OTUs, were further classified into seven families, and nine genera were identified. Five of these genera had never been reported in the study region before. We observed a decline in OTU richness with increasing elevation; however, the maximum abundance of snails was found at higher elevations. CCA demonstrated that Ca, Mg, and moisture saturation predominantly shape snail community composition. Discussion: The unique climatic conditions and spatial distribution of precipitation from lowlands to highlands, as well as from west to east, make the Hyrcanian forests an ideal case study area for understanding the dynamics of land snail communities. In summary, this study provides new insights into the land snail communities thriving in the Hyrcanian forests. The findings from our research can contribute to the development of effective conservation management strategies for forest ecosystems. By understanding the factors influencing the distribution and composition of land snail communities, we can make informed decisions to protect and preserve land snails and the balance they maintain within their habitats. [ABSTRACT FROM AUTHOR]

Published

2024

32. Resilience changes of carbon stocks to quantify the long‐term effects of ecological engineering projects in subtropical forests of China based on satellite‐derived net ecosystem production time series and inventory data.

Author

Yang, Qin, Huang, Zhi, Wu, Ling, Guo, Binbin, Liu, Meiling, Xue, Xiaojing, Li, Xiaoyue, and Liu, Xiangnan

Subjects

ECOLOGICAL engineering, FOREST management, FOREST resilience, TIME series analysis, FOREST dynamics, ECOLOGICAL modernization

Abstract

Understanding how resilient forests are to ecological engineering projects (EEPs) is essential to forest management and ecosystem health. Despite growing evidence that EEPs achieve increasing carbon stocks, whether such benefits can be sustainable and what are the consequences of EEPs on forest health remain unclear. This study aimed to investigate the long‐term effects of EEPs using forest resilience from aspects of resistance and recovery, by applying a change detection algorithm (breaks for additive seasonal and trend; BFAST) spatially on net ecosystem production (NEP) (proxy for carbon stocks) time series (1981–2019) in red soil hilly region (RSHR) of subtropical China. The spatial parameters (e.g., the number, magnitude, and time of changes) used to construct resilience metrics were generated based on BFAST‐derived breakpoints. These metrics were then utilized to analyze the dynamics of forest resilience in relation to EEPs factors in terms of plantation area, forest type, and stand age. Our results observed 92.77% of breakpoints in NEP after 2000, which corresponds well with the periods that multiple EEPs were conducted. NEP resilience showed great variability during 2001–2019, with a positive increasing trend in resistance (R2 = 0.72) and a continuous decline (R2 = 0.37) in recovery, indicating an unhealthy ecosystem in RSHR. Our findings revealed that forest resistance was strongly associated with plantation area (R = 0.71), and the presence of monoculture and young coniferous forest may be the potential factors for the decline in recovery. This suggested that forest resilience in RSHR is mainly modulated by large‐scale EEPs. [ABSTRACT FROM AUTHOR]

Published

2024

33. Maternity roosts of the giant noctule, Nyctalus lasiopterus, in preserved and disturbed forests of the Western Carpathians.

Author

KAŇUCH, Peter, LŐBBOVÁ, Denisa, BOVIN, Clémence, RUŽINSKÁ, Romana, JARČUŠKA, Benjamín, KRIŠTÍN, Anton, and KAŇUCHOVÁ, Andrea

Subjects

*ASPEN (Trees), *SALVAGE logging, *EUROPEAN aspen, *ROOSTING, *TREE cavities, *NORWAY spruce, *DEAD trees

Abstract

The giant noctule is a rare European bat about which we have little ecological information, but it is a priority species for which we need to determine the best conservation measures. Acoustic monitoring followed by a radio-tracking survey resulted in the localisation of two maternity colonies in different forest areas in the Western Carpathians, one in protected mixed stands in a national park (Muránska planina Mts) and the other in disturbed secondary spruce forests (Balocké vrchy Mts). The 95% home-range polygon of the roosts was about 3.5 km2 for both colonies. Eurasian aspen (Populus tremula) accounted for 100% of roosts (n = 18 trees) in mixed stands. However, even in the spruce monocultures, bats roosted in cavities of this tree whenever possible, although 76% of roosts (n = 21 trees) were still in Norway spruce (Picea abies). Regardless of forest type, the bats preferred to roost at the edges of the stands and on steep slopes that offered a free exit from the roost into open space. Small-scale salvage logging during bark beetle outbreaks can also create suitable open roosting habitats. Our observations indicate that structured stands with a higher proportion of aspen will positively affect tree-dwelling bats in mountain forests. [ABSTRACT FROM AUTHOR]

Published

2024

34. Nexus between carbon stock, biomass, and CO2 emission of woody species composition: evidence from Ise-Ekiti Forest Reserve, Southwestern Nigeria.

Author

Dada, Adebowale D., Matthew, Olaniran J., and Odiwe, Anthony I.

Subjects

FOREST reserves, BIOMASS, ECOLOGICAL disturbances, CARBON sequestration, FOREST management, EMISSION inventories, FOREST biodiversity

Abstract

The carbon stock, biomass, and CO2 emissions in woody species play crucial roles in understanding and managing ecosystems. Understanding these aspects is crucial for sustainable forest management, conservation, and mitigating the impact of woody species on global carbon dynamics and climate change. This study examined the nexus between carbon stock, biomass, and CO2 emission of woody plant composition in disturbed and undisturbed areas in Southwestern Nigeria. The study involved the random establishment of plots in the disturbed and undisturbed areas and, in each plot, the woody plants were enumerated and identified to the species level. The results showed that total biomass (102.645 Mg ha-1), total carbon stock (51.323 Mg C ha-1), and total CO2 emission (188.354 Mg C ha-1) values of tree species in undisturbed plots were higher than the values of total biomass (70.768 Mg ha-1), total carbon stock (35.384 Mg C ha-1), and total CO2 emission (129.859 Mg C ha-1) recorded in disturbed plots. The results also revealed that total biomass (0.123 Mg ha-1), total carbon stock (0.061 Mg C ha-1), and total CO2 emission (0.225 Mg C ha-1) values of shrub species recorded in disturbed plots were higher than values of total biomass (0.067 Mg ha-1), total carbon stock (0.034 Mg C ha-1) and total CO2 content (0.124 Mg C ha-1) recorded in undisturbed plots, respectively. The findings showed that in undisturbed and disturbed plots of shrubs, biomass, carbon and CO2 emissions have a strong positive correlation of 1.000**. While biomass, carbon, and CO2 emission have a very strong positive correlation (0.999**) in undisturbed plots of trees, the biomass, carbon, and CO2 emission have moderate to strong positive correlations (0.458** to 0.974**) in disturbed plots of the tree. The study concluded that while biomass, carbon stock, and CO2 emission values of tree species were higher in undisturbed plots than in disturbed plots, the biomass, carbon stock, and CO2 emission values of shrub species were lower in undisturbed plots than in disturbed plots. It also concluded that the main purpose of establishing reserve forests is not totally achieved as human activities occurring in reserve forests still contribute to the increment of climate change. Highlights: • Undisturbed areas had higher tree carbon and CO2 levels, emphasizing their role in carbon sequestration. • Disturbed plots showed higher shrub biomass, suggesting unexpected ecological responses to disturbances. • Despite efforts, reserve forests face challenges, as human activities contribute to climate change impacts. [ABSTRACT FROM AUTHOR]

Published

2024

35. Dissimilarity in radial growth and response to drought of Korshinsk peashrub (Caragana korshinskii Kom.) under different management practices in the western Loess Plateau.

Author

Cunwei Che, Mingjun Zhang, Wanmin Yang, Shengjie Wang, Yu Zhang, and Lingling Liu

Subjects

DROUGHT management, DROUGHTS, WATER harvesting, FOREST management, ATMOSPHERIC models, RAINFALL, TREE-rings

Abstract

Quantitative assessment of tree responses to the local environment can help provide scientific guidance for planted forest management. However, research on the climate-growth relationship of Korshinsk peashrub (Caragana korshinskii Kom.) under different land preparation and post-management (irrigation) conditions is still insufficient. In this study, we collected 223 tree-ring samples from Korshinsk peashrubs using dendroecological methods and systematically quantified the relationships between shrub growth and climatic factors under different management practices in the western Loess Plateau of China. Our findings demonstrated that drought stress caused by scarce precipitation from April to August was the primary factor limiting the growth of Korshinsk peashrubs in the northern and southern mountains of Lanzhou. The "climwin" climate model results showed a weak correlation between natural Korshinsk peashrub growth and drought stress, whereas planted Korshinsk peashrub under rain-fed conditions in the southern mountain was significantly (p<0.05) limited by drought stress from April to August. Moreover, planted Korshinsk peashrub growth under irrigated conditions in the northern mountain was limited only by drought stress in January. Drought model explained 28.9%, 38.3%, and 9.80% of the radial growth variation in Xiguoyuan (XGY), Shuibaozhan (SBZ), and Zhichagou (ZCG) sites, respectively. Artificial supplementary irrigation alleviated the limitation of drought on planted forest growth, which may be implemented for Korshinsk peashrubs planted on sunny slopes, while planted Korshinsk peashrubs under natural rain-fed conditions can be planted on shady slopes through rainwater harvesting and conservation measures such as horizontal ditches and planting holes. [ABSTRACT FROM AUTHOR]

Published

2024

36. Tree adaptive growth (TAG) model: a life-history theory-based analytical model for post-thinning forest stand dynamics.

Author

Roitberg, Bernard, Chao Li, and Lalonde, Robert

Subjects

TREE growth, FOREST dynamics, FOREST management, LIFE history theory, WOOD

Abstract

Background: Understanding stand dynamics is essential for predicting future wood supply and associated ecosystem services for sustainable forest management. The dynamics of natural stands can be characterized by agedependent growth and yield models. However, dynamics in managed stands appear somewhat different from that of natural stands, especially with difficulties in explaining the phenomenon of post-thinning overcompensation, based upon some long-term observations. Though overcompensation is an ideal outcome for the forest sector, it had been largely treated as an outlier and thus ignored or dismissed as "out-of-the-ordinary". Methodology: We developed a life history theory-based, state-dependent model of Tree Adaptive Growth (TAG) to investigate this phenomenon and verified that overcompensation should be a common outcome in postthinning forest stands when the stand growth over time is sigmoid shaped. TAG posits that individual trees will invest proportionately more into growth following thinning because it is evolutionarily adaptive to do so. Results: Our investigation of the model's behavior unearthed diverse stand growth patterns similar to that which is observed in the empirical datasets and predicted by a statistics-based Tree's Compensatory Growth (TreeCG) model. Conclusion: A simple, theory-driven, analytical model, TAG, can reproduce the diverse growth patterns in post-thinning stands and thus assist addressing silviculture-related issues. The model can be applied to various jurisdictions even without detailed regional growth and yield relationships and is capable of incorporating the effects of other time sensitive factors like fertilization, pruning, and climate change. [ABSTRACT FROM AUTHOR]

Published

2024

37. Multifractal characteristics of soil particle size distribution of abandoned homestead reclamation under different forest management modes.

Author

Meng, Tingting, Han, Jichang, Zhang, Yang, Sun, Yingying, Liu, Zhe, and Zhang, Ruiqing

Subjects

*PARTICLE size distribution, *SOIL particles, *FOREST management, *CLAY soils, *PEARSON correlation (Statistics)

Abstract

In this study, fast-growing poplar reclaimed from abandoned homestead in Xixian New District, Xi'an City, Shaanxi Province, was used as the research object to explore the multi-fractal characteristics of soil particle size distribution under different management modes of abandoned land (control), irrigation, fertilizer irrigation and mixed fertilizer irrigation. The results showed that the mean values of soil clay, silt and sand in abandoned land were 14.58%, 81.21% and 4.22% respectively, 14.08%, 79.92% and 5.99% under irrigation, 15.17%, 81.19% and 3.64% under fertilizer irrigation, and 16.75%, 80.20% and 3.05% in mixed fertilizer treatment. From 40 cm, with increasing soil depth, soil clay particles increase under irrigation, fertilizer irrigation, and mixed fertilizer irrigation modes. The single fractal dimension of soil particle size distribution (D) in each treatment ranges from 2.721 to 2.808. At 60–100 cm, D shows fertilizer irrigation > mixed fertilizer irrigation > irrigation > abandoned land, indicating that fertilization and irrigation can increase the fine-grained matter of deep soil particles and reduce soil roughness. Compared with abandoned land, under irrigation, fertilizer irrigation and mixed fertilizer modes the capacity dimension (D0), entropy dimension (D1), correlation dimension(D2), shape characteristics of the multifractal spectrum (Δf) and overall inhomogeneity of the soil particle size distribution (D0–D10) indicate an uneven distribution of soil particle size; fractal structure characteristics of soil (D−10–D0) indicate a simplified soil structure, and degree of dispersion of soil particle size distribution (D1/D0) indicates that soil particle size is distributed in dense areas. Pearson correlation analysis showed that D was significantly correlated with clay, sand, D0–D10, soil organic matter (SOM) and soil available phosphorus (SAP) (P < 0.05). Stepwise regression analysis showed that clay was the main controlling factor of D and D0–D10 changes. The research results can provide some potential indicators for the quality evaluation of abandoned homestead reclamation. [ABSTRACT FROM AUTHOR]

Published

2024

38. High risk, high gain? Trade-offs between growth and resistance to extreme events differ in northern red oak (Quercus rubra L.).

Author

Kormann, Jonathan M., van der Maaten, Ernst, Liesebach, Mirko, Liepe, Katharina J., and van der Maaten-Theunissen, Marieke

Subjects

RED oak, CLIMATE extremes, CLIMATE change, CLIMATE sensitivity, DROUGHTS, FOREST management

Abstract

Information about the resistance and adaptive potential of tree species and provenances is needed to select suitable planting material in times of rapidly changing climate conditions. In this study, we evaluate growth responses to climatic fluctuations and extreme events for 12 provenances of northern red oak (Quercus rubra L.) that were tested across three trial sites with distinct environmental conditions in Germany. Six provenances each were sourced from the natural distribution in North America and from introduced stands in Germany. We collected increment cores of 16 trees per provenance and site. Dendroecological methods were used to compare provenance performance and establish climate-growth relationships to identify the main growth limiting factors. To evaluate the provenance response to extreme drought and frost events, three site-specific drought years were selected according to the Standardized Precipitation Evapotranspiration Index (SPEI) and 2010 as a year with an extreme late frost event. Resistance indices for these years were calculated and assessed in relation to overall growth performance. We observed a high variation in growth and in the climate sensitivity between sites depending on the prevailing climatic conditions, as well as a high intra-specific variation. Overall, summer drought and low temperatures in the early growing season appear to constrain the growth of red oak. The resistance of provenances within sites and extreme years showed considerable rank changes and interaction effects. We did not find a trade-off between growth and resistance to late frost, namely, fast growing provenances had a high frost hardiness. Further, there was no evidence for a trade-off between growth and drought hardiness. Still, responses to drought or late frost differ between provenances, pointing to dissimilar adaptive strategies. Provenances from introduced (i.e. German) stands represent suitable seed sources, as they combine a higher growth and frost hardiness compared to their North American counterparts. Drought hardiness was slightly higher in the slow-growing provenances. The results provide a better understanding of the variable adaptive strategies between provenances and help to select suitable planting material for adaptive forest management. [ABSTRACT FROM AUTHOR]

Published

2024

39. Detection of Typical Forest Degradation Patterns: Characteristics and Drivers of Forest Degradation in Northeast China.

Author

Hai, Yue, Liang, Mei, Yang, Yuze, Sun, Hailian, Li, Ruonan, Yang, Yanzheng, and Zheng, Hua

Subjects

*FOREST degradation, *TEMPERATE forests, *DROUGHT management, *FOREST management, *FOREST dynamics, *BROADLEAF forests, *IDENTIFICATION

Abstract

The accurate identification of forest degradation and its driving factors is a prerequisite for implementing high-quality forest management. However, distinguishing degradation patterns is often neglected in large-scale forest quality assessments. The indicators were constructed to identify typical forest degradation patterns using remote sensing indexes, followed by an analysis of the spatiotemporal dynamics of forest degradation and quantification of the contributions from various driving factors. The results indicated that the constructed indicators could effectively distinguish typical forest degradation patterns, with a fire degradation identification accuracy of 90.0% and a fitting accuracy of drought and pest degradation higher than 0.7. The cold temperate conifer forest zone had the largest proportion of fire degradation, accounting for 67.7% of the area, and totals of 99.0% of the subtropical evergreen broadleaf forest zone and 92.8% of the temperate conifer and broadleaf mixed forest zone were moderately to severely affected by drought, with long-term stability. Additionally, 0.1% of the temperate grassland region and 0.1% of the cold temperate conifer forest zone underwent severe pest infestations, with a long-term stable trend. Meteorological factors were the primary contributors to all typical degradation patterns, accounting for 81.35%, 58.70%, and 82.29%, respectively. The research developed an index for assessing forest degradation and explained the importance of natural and anthropogenic factors in forest degradation. The results are beneficial for the scientific management of forest degradation and for improving forest management efficiency. [ABSTRACT FROM AUTHOR]

Published

2024

40. “It's good for the forest and it's traditional”: Indigenous ecologies and land management at the community/NGO interface in southern Belize.

Author

Baines, Kristina and Miss (Miis), Pablo

Abstract

In 2019, the Maya Leaders Alliance unveiled “The Future We Dream,” a vision document sharing a common interest among the Mopan and Q'eqchi’ Maya people of Belize for a future in which they are committed to sustaining a reciprocal relationship with and stewardship of the land. In this context, this paper shares results from three communities bordering a forest reserve who were asked to identify important practices, which they considered “traditional” and “environmentally sustainable,” as part of a collaborative NGO project to promote indigenous forest management. Through analysis of data collected alongside Indigenous Community Promoters (ICPs), it explores how these terms were defined and deployed to discuss healthy forests and healthy communities. The paper discusses how collaborative and community‐led data collection addresses both the need to decolonize sustainability discourse and produce better data for better project outcomes (Maya, traditional ecological knowledge, forest management, environmental sustainability, indigenous land rights). [ABSTRACT FROM AUTHOR]

Published

2024

41. Impact of species composition on fire-induced stand damage in Spanish forests.

Author

Peris-Llopis, Marina, Mola-Yudego, Blas, Berninger, Frank, Garcia-Gonzalo, Jordi, and González-Olabarria, José Ramón

Subjects

*FOREST resilience, *FOREST management, *MIXED forests, *AUSTRIAN pine, *TREE mortality, *DEAD trees

Abstract

Mixed forests play a fundamental ecological role increasing biodiversity and providing ecosystem services; it has been suggested they have higher resilience and resistance against disturbances, particularly fire. Here, we compare tree mortality in post-fire mixed and pure stands in Spain, on 2,782 plots and 30,239 trees during the period 1986 to 2007. We show evidence that mixed stands can have higher post-fire mortality than pure stands, and specific mixtures of species with different fire-related strategies increase the stand's vulnerability to fire damage versus pure stands of either species, such is the case of Pinus halepensis—Pinus nigra mixtures. Mixtures of two species often had higher mortality than species growing in pure stands. Combinations of species with different fire-related strategies can both enhance or reduce forest resistance. The role and management of mixed forests should be reconsidered after these findings, in order to enhance forest resilience to fires. [ABSTRACT FROM AUTHOR]

Published

2024

42. Participatory intention and behavior towards riparian peri-urban forests management; an extended theory of planned behavior application.

Author

Maleknia, Rahim and ChamCham, Jyran

Subjects

PLANNED behavior theory, FOREST management, RIPARIAN forests, GREEN behavior, CONTROL (Psychology), MANAGEMENT philosophy

Abstract

Introduction: Peri-urban forests play crucial role in quality of life and environment for citizens. To effectively utilize the services provided by these forests, it is essential to establish an integrated forest management system that aims to achieve a balance of all ecosystem services. This can be accomplished through a participatory approach that involves key citizen stakeholders. Mountaineers shape a specific group which have showed high pro-environmental behaviors to protect natural resources. This research aimed to examine the influencing factors on mountaineers' intention to participate and their actual behavior in the management of riparian peri-urban forests in this field using extended theory of planned behavior. Methods: Environmental values and perceived barriers were added to original model as additional components to enhance its explanatory power. A sample size of 416 individuals was surveyed using a questionnaire. Data was analyzed using Smart-PLS. Results: The findings of the analysis revealed that the developed model accounted for 75.2% of the variance in mountaineers' intention and 67.8% of behavior. The results demonstrated that three main components of model including attitudes, subjective norms and perceived behavioral control significantly influenced individuals' intentions to participate in peri-urban forests management. Furthermore, intentions were cleared to have a positive influence on actual behavior in this context. Additionally, environmental values were found to be positively correlated with individuals' intentions but not statistically significant behavior toward participate in urban forest management. Perceived barriers were found to have a negative impact on individuals' intentions toward participate in urban forest management. The perceived barriers and behavior had not statistically significant relationship. Conclusion: The results of study provide valuable insights for the development of effective management strategies to promote mountaineers' participation in riparian PUFs management. The study emphasizes the importance of environmental education and awareness campaigns targeted at mountaineers. [ABSTRACT FROM AUTHOR]

Published

2024

43. Where to start with climate-smart forest management? Climatic risk for forest-based mitigation.

Author

Piazza, Natalie, Malanchini, Luca, Nevola, Edoardo, and Vacchiano, Giorgio

Subjects

FOREST management, FOREST measurement, CARBON cycle, WINDFALL (Forestry), MOUNTAIN forests, MOUNTAIN soils

Abstract

Natural disturbances like windthrows or forest fires alter the provision of forest ecosystem services like timber production, protection from natural hazards or carbon sequestration. After a disturbance, forests release large amounts of carbon and therefore change their status from carbon sinks to carbon source for some time. Climate-smart forest management may decrease forest vulnerability to disturbances and thus reduce carbon emissions as a consequence of future disturbances. But how to prioritize stands most in need of climate-smart management? In this study we adopted a risk mapping framework (hazard × vulnerability) to assess the risk to climate-related forest ecosystem services (carbon stock and sink) in forests prone to windthrow (in the Julian Alps, Italy) and forest fires (in the Apennines, Italy). We calculated hazard by using forest fire and windthrow simulation tools, and examined the most important drivers of the respective hazards. We then assessed vulnerability by calculating current carbon stocks and sinks in each forest stands. We used these values together with the calculated hazard to estimate "carbon risk", and prioritized high-risk stands for climate-smart management. We show that combining disturbance simulation tools and forest carbon measurements may help in risk-related decision making in forests, and taking planning decisions for climate-smart forestry. This approach may be replicated in other mountain forests to help understanding their actual carbon vulnerability to forest disturbances. [ABSTRACT FROM AUTHOR]

Published

2024

44. Forest types outpaced tree species in centroid-based range shifts under global change.

Author

Abbasi, Akane O., Woodall, Christopher W., Gamarra, Javier G. P., Hui, Cang, Picard, Nicolas, Ochuodho, Thomas, de-Miguel, Sergio, Sahay, Rajeev, Fei, Songlin, Paquette, Alain, Chen, Han Y. H., Catlin, Ann Christine, Liang, Jingjing, Lischke, Heike, and Noce, Sergio

Subjects

GLOBAL environmental change, FOREST conservation, FOREST management, FOREST surveys, K-means clustering

Abstract

Introduction: Mounting evidence suggests that geographic ranges of tree species worldwide are shifting under global environmental changes. Little is known, however, about if and how these species' range shifts may trigger the range shifts of various types of forests. Markowitz's portfolio theory of investment and its broad application in ecology suggest that the range shift of a forest type could differ substantially from the range shifts of its constituent tree species. Methods: Here, we tested this hypothesis by comparing the range shifts of forest types and the mean of their constituent species between 1970-1999 and 20002019 across Alaska, Canada, and the contiguous United States using continent- wide forest inventory data. We first identified forest types in each period using autoencoder neural networks and K-means cluster analysis. For each of the 43 forest types that were identified in both periods, we systematically compared historical range shifts of the forest type and the mean of its constituent tree species based on the geographic centroids of interpolated distribution maps. Results: We found that forest types shifted at 86.5 km-decade-1 on average, more than three times as fast as the average of constituent tree species (28.8 km-decade-1). We showed that a predominantly positive covariance of the species range and the change of species relative abundance triggers this marked difference. Discussion: Our findings provide an important scientific basis for adaptive forest management and conservation, which primarily depend on individual species assessment, in mitigating the impacts of rapid forest transformation under climate change. [ABSTRACT FROM AUTHOR]

Published

2024

45. SPECIES AND TREE QUALITY SPATIAL DISTRIBUTION PATTERNS AND ASSOCIATIONS IN TUYEN QUANG, VIETNAM.

Author

P. V., Khoa, B. M., Hung, B., Dell, N. K., Vinh, and M. H., Chau

Subjects

*SECONDARY forests, *FOREST management, *FOREST density, *SPECIES distribution, *TREES, *FOREST regeneration

Abstract

Spatial distribution patterns of trees are important keys to understanding forest structure and for proposing forest management solutions. Management of rainforests in Vietnam is constrained by a shortage of spatial forest data. Therefore, research was conducted in an upland secondary forest in Tuyen Quang, Vietnam to assess spatial distributions of species and quality levels, and associations between them. Tree diameter, height, coordinates and quality (good, medium and bad) were recorded in three one-hectare plots. Tree density ranged from 920-1050 trees ha-1, and there were 61-69 species ha-1. The highest percentages of good and bad trees were 25.1 and 42.9%, respectively. The habitat was determined as heterogeneous to homogeneous. The spatial distribution of all species and ecological important species was mostly random and clustered. Associations among ecological important species was mainly independent. Tree qualities were randomly distributed, but bad trees were more abundant in the understorey. Associations between tree qualities were mostly independent. The results on spatial distribution patterns and associations between species and qualities will be useful in helping to eliminate competition of trees in clusters, assist regeneration in gaps and determine options for reducing the frequency of bad trees in the future. [ABSTRACT FROM AUTHOR]

Published

2024

46. THE EFFICIENCY OF FOREST MANAGEMENT PRACTICES IN CAMEROON 30 YEARS AFTER THE ADOPTION OF A NEW LEGAL FRAMEWORK.

Author

A., Ngoungoure Manjeli, A. B., Biwolé, K., Daïnou, F., Tosso, J. D., Mendomo Biang, F., Choula, and S., Bobo Kadiri

Subjects

*SUSTAINABILITY, *FOREST policy, *RESOURCE exploitation, *LOGGING, *POPULATION dynamics, *FOREST management

Abstract

Practices in sustainable forest management are ruled by national forest policies. Legal standards of forest management applied in Central African region display increasing risks of long-term depletion of timber resources. This review aims to assess the effectiveness of sustainable logging practices by highlighting the strengths and weaknesses of the forest management rules applied in Cameroon. The management of the populations of timber tree species is based on population dynamics traits and on measures imposed by national forestry policies. Before any exploitation in natural forest concessions, a management plan must be approved to define the various activities and the potential impacts on the forest. Despite many relevant principles, nearly three decades of forest management in Cameroon have exhibited gaps that need to be addressed in the legal standards of forest management. Proposals for improvement relate to procedures for determining the recovery rate and how considerations on density and seed tree populations should be included into the legal management policies. These suggestions depend on the knowledge of demographic dynamics and the reproductive ecology of the timber taxa as well as a more rapid integration of scientific results into the legal forest management standards. [ABSTRACT FROM AUTHOR]

Published

2024

47. Burn Severity and Postfire Salvage Logging Effects on Vegetation and Soil System in a Short-Term Period in Mediterranean Pine Forests.

Author

Peña-Molina, Esther, Moya, Daniel, Fajardo-Cantos, Álvaro, García-Orenes, Fuensanta, Mataix-Solera, Jorge, Arcenegui, Victoria, Lucas-Borja, Manuel Esteban, and de las Heras, Jorge

Subjects

*SALVAGE logging, *CLIMATE change, *CLUSTER pine, *ALEPPO pine, *PINACEAE, *FOREST dynamics, *PINE

Abstract

Wildfires are a natural part of the dynamics of Mediterranean forest ecosystems. The fire patterns in the Mediterranean basin have been altered mainly due to changes in land use and climate change. In 2017, a wildfire in Yeste (Spain) burned 3200 hectares of two Mediterranean pine forests. We investigated the effects of burn severity and postfire salvage logging practices on vegetation and soil properties in four experimental areas distributed within the wildfire perimeter. These areas included unburned, low, high, and high burn severity with salvage logging, all located under Pinus halepensis Mill and Pinus pinaster Aiton stands. Salvage logging was applied 18 months after the fire. We established 72 circular plots (nine per treatment and pine species). We collected soil samples to analyze physicochemical and biological soil properties, including pH, electrical conductivity (EC), soil organic matter (SOM) content, carbon from microbial biomass (CBM), basal soil respiration (BSR), metabolic quotient (qCO2), and two enzymatic activities: β-glucosidase (GLU) and phosphatase (PHP). To understand how vegetation changed after fire, we implemented three linear transects per plot to calculate α-diversity indices (richness, Shannon, and Simpson), vegetation coverage (COBV), fraction of bare soil (BSOIL), the number of postfire seedlings (NSeed) and their average height (Hm), and we grouped vegetation into different postfire adaptive strategies: facultative seeder (R+S+), obligate resprouter (R+S−), obligate seeder (R−S+), and non-fire-adapted (R−S−). We ran ANOVA and Tukey's HSD post hoc tests to evaluate the differences between burn severity and salvage logging practices on the variables examined for each pine stand. We used PCA and correlation analysis to identify plant-soil interactions. Our results suggest that Pinus halepensis stands were more affected by the wildfire than Pinus pinaster stands due to the distinct characteristics of each species (morphology of the leaves, bark thickness, cone structure, etc.) and the significant differences observed in terms of pH, SOM, CBM, qCO2, GLU, PHP, and Nseed. The proportion of obligate resprouter species was higher in Pinus halepensis stands, and the obligate seeder species were higher in Pinus pinaster stands. The study highlighted the importance of monitoring burn severity and postfire management practices to promote forest recovery and reduce wildfire risk. Limiting the negative impact of postfire salvage logging practices can enhance the resilience of vulnerable ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

48. Habitat Diversity, Environmental Conditions, and Distribution of Endangered Fungus Sarcosoma globosum (Ascomycota) in Lithuania.

Author

Vabuolė, Eglė, Juzėnas, Sigitas, and Kutorga, Ernestas

Subjects

*NORWAY spruce, *ASCOMYCETES, *FOREST management, *CONIFEROUS forests, *OLD growth forests, *HABITATS

Abstract

Sarcosoma globosum (Pezizales, Ascomycota) is a rare and endangered fungus, and it is believed to be extinct in most central European countries. Known records of S. globosum in Lithuania reveal that it is situated on the south-western edge of a shrinking geographical distribution range in Europe. An assessment of the species' current habitat conditions and threats could enhance and provide new knowledge and guidelines to facilitate the efficient conservation of this threatened fungus and its habitats. The main aim of this study was to analyse the habitats and environmental conditions of S. globosum in Lithuania. We examined the diversity of habitats, various soil and tree stand characteristics, forest management activities, and natural disturbances in all 28 known fungus localities. S. globosum habitats in Lithuania are restricted to coniferous forests with the presence of Picea abies; the species was observed in boreo-nemoral bilberry western spruce taiga (the European Nature Information System habitat type T3F14), continental tall-herb western spruce taiga (T3F44), and native fir, spruce, larch, and cedar plantations (T3N1). An analysis of forest stand age structures in Lithuanian S. globosum localities revealed a rather large proportion of young Norway spruce stands of cultural origin (25.6% of study plots were assigned to age classes from 21 to 50 years); nevertheless, the majority of fungus growth sites were situated in older forests. Various natural and anthropogenic disturbances that threaten S. globosum habitats were assessed. [ABSTRACT FROM AUTHOR]

Published

2024

49. Mass Trapping Lepidopteran Pests with Light Traps, with Focus on Tortricid Forest Pests: What If?

Author

Rhainds, Marc

Subjects

*PHEROMONE traps, *INSECT traps, *AGRICULTURAL pests, *LIGHT emitting diodes, *PESTS, *FOREST management, *AGRICULTURE

Abstract

Simple Summary: The attraction of moths to light sources has long been used to reduce the damage of agricultural pests, starting in antiquity with controlled fires in the vicinity of crops. Coinciding with their development in the 18th century, light traps have been used to control pest populations by culling densities of adults lured to death at light sources (light trap-based mass trapping, or LTmt). Historically, the most extensive large-scale LTmt trials were conducted in the U.S.A. starting in the 1920s, validating in the process the hypothesis that crop damage can be reduced by removing egg-carrying females from the pest reproductive pool. Light-based mass trapping programs were phased out in the 1970s, coinciding with the implementation of pheromone-based pest management. With the advent of LEDs, solar power sources, and intelligent designs, recent years have seen an uptick of interest in LTmt, with the majority of contemporary studies conducted in Asia. As a rule, LTmt trials have been conducted exclusively in agricultural landscapes. A novel approach is proposed here to control epidemic populations of a tortricid forest pest, spruce budworm, in geographically isolated forests of balsam firs at a high risk of intense defoliation and mortality. The management of Lepidopteran pests with light traps (LTs) is often achieved by luring adults to death at light sources (light trap-based mass trapping, or LTmt). Large-scale LTmt programs against agricultural pests initiated in the late 1920s in the United States were phased out in the 1970s, coinciding with the rise of pheromone-based management research. The interest in LTmt has surged in recent years with the advent of light emitting diodes, solar power sources, and intelligent design. The first step in implementing LTmt is to identify a trapping design that maximizes the capture of target pests and minimizes the capture of non-target beneficial insects—with a cautionary note that high captures in LTs are not equivalent to the feasibility of mass trapping: the ultimate objective of LTmt is to protect crop plants from pest damage, not to trap adults. The captures of egg-carrying females in light traps have a greater impact on the efficiency of LTmt than the captures of males. When LTmt is defined as a harvesting procedure, the biomass of females in LTs may be viewed as the best estimator of the mass trapping yield; biomass proxy has universal application in LTmt as every living organism can be defined on a per weight basis. While research has largely focused on agricultural pests, an attempt is made here to conceptualize LTmt as a pest management strategy in forest ecosystems, using spruce budworm as a case study. The mass trapping of female budworms is impossible to achieve in endemic populations due to the large spatial scale of forest landscapes (implying the deployment of a prohibitively large number of LTs); in addition, ovipositing female budworms do not respond to light sources at a low density of conspecifics. The light-based mass trapping of female budworms may provide a realistic management option for geographically isolated forest stands heavily infested with budworms, as a tool to prevent tree mortality. Somehow unexpectedly, however, one factor obscuring the feasibility of LTmt is as follows: the complex ('unknowable') economic valuation of forest stands as opposed to agricultural landscapes. [ABSTRACT FROM AUTHOR]

Published

2024

50. The puzzling ecology of African Marantaceae forests.

Author

Pouteau, Robin, Picard, Juliette, Doumenge, Charles, Brncic, Terry, Gillet, Jean‐François, Doucet, Jean‐Louis, Gourlet‐Fleury, Sylvie, Kimpouni, Victor, Loumeto, Jean‐Joël, Pélissier, Raphaël, and Réjou‐Méchain, Maxime

Subjects

*FOREST management, *ECOLOGICAL succession, *FOREST regeneration, *TROPICAL forests, *CLIMATE change, *RAIN forests, *PLANT invasions

Abstract

Marantaceae forests are tropical rainforests characterized by a continuous understory layer of perennial giant herbs and a near absence of tree regeneration. Although widespread in West‐Central Africa, Marantaceae forests have rarely been considered in the international literature. Yet, they pose key challenges and opportunities for theoretical ecology that transcend the borders of the continent. Specifically, we ask in this review whether open Marantaceae forests and dense closed‐canopy forests can be considered as one of the few documented examples of alternative stable states in tropical forests. First, we introduce the different ecological factors that have been posited to drive Marantaceae forests (climate, soil, historical and recent anthropogenic pressures, herbivores) and develop the different hypotheses that have been suggested to explain how Marantaceae forests establish in relation with other vegetation types (understory invasion, early succession after disturbance, and intermediate successional stage). Then, we review the underlying ecological mechanisms that can explain the stability of Marantaceae forests in the long term (tree recruitment inhibition, promotion of and resilience to fire, adaptive reproduction, maintenance by megaherbivores). Although some uncertainties remain and call for further empirical and theoretical research, we found converging evidence that Marantaceae forests are associated with an ecological succession that has been deflected or arrested. If verified, Marantaceae forests may provide a useful model to understand critical transitions in forest ecosystems, which is of particular relevance to achieve sustainable forest management and mitigate global climate change. [ABSTRACT FROM AUTHOR]

Published

2024