Between Old Law and New Practice: The Policy–Implementation Gap in Türkiye’s Forest Governance Transition
Host-Specific Fungal Assemblages, Dominated by Ophiostomatoid Taxa, in Scots Pine Bark Beetles from Slovakia Revealed by Metabarcoding
Mixed-Species Afforestation Increases Deep Soil Water Consumption on the Semi-Arid Loess Plateau
Interactive Visualizations of Integrated Long-Term Monitoring Data for Forest and Fuels Management on Public Lands
Entomopathogenic Fungi from Minnesota Are Virulent Against Emerald Ash Borer, Agrilus planipennis Fairmaire (Coleoptera: Buprestidae), Adults in a Laboratory Autodissemination Device Assay

Journal Description

Forests

Forests is an international, peer-reviewed, open access journal on forestry and forest ecology published monthly online by MDPI.

Open Access— free for readers, with article processing charges (APC) paid by authors or their institutions.
High Visibility: indexed within Scopus, SCIE (Web of Science), Ei Compendex, GEOBASE, PubAg, AGRIS, PaperChem, and other databases.
Journal Rank: JCR - Q2 (Forestry) / CiteScore - Q1 (Forestry)
Rapid Publication: manuscripts are peer-reviewed and a first decision is provided to authors approximately 16.8 days after submission; acceptance to publication is undertaken in 2.5 days (median values for papers published in this journal in the second half of 2025).
Recognition of Reviewers: reviewers who provide timely, thorough peer-review reports receive vouchers entitling them to a discount on the APC of their next publication in any MDPI journal, in appreciation of the work done.
Testimonials: See what our editors and authors say about Forests.
Journal Cluster of Ecosystem and Resource Management: Forests, Diversity, Fire, Conservation, Ecologies, Biosphere and Wild.

Impact Factor: 2.5 (2024); 5-Year Impact Factor: 2.7 (2024)

Imprint Information Journal Flyer Open Access ISSN: 1999-4907

Latest Articles

25 pages, 5010 KB

Open AccessArticle

Spatial Imbalance Patterns of Forest Carbon Density and Their Driving Mechanisms in the Xiuhe River Basin

by Dongping Zha, Meng Zhang, Ligang Xu, Zhan Shen, Junwei Wu, Weiwei Deng, Meng Yuan, Nan Wu and Renhao Ouyang

Forests 2026, 17(3), 312; https://doi.org/10.3390/f17030312 (registering DOI) - 28 Feb 2026

Abstract

Forest carbon sinks are central to climate change mitigation, and prior work has established a solid basis for assessing carbon sinks at regional scales. At the basin scale, however, forest carbon density (vegetation biomass carbon density, i.e., aboveground + belowground biomass carbon; t C ha⁻¹) often shows pronounced spatial clustering and inequality, while its temporal evolution and underlying mechanisms remain poorly quantified and interpreted for management-relevant units such as townships. Using the Xiuhe River Basin as a case study and townships as the basic analytical units, this study identifies the clustered spatial structure and inequality characteristics of forest carbon density and clarifies the joint effects of natural constraints and human disturbances, including potential threshold responses. We first assessed global spatial autocorrelation within a spatial weights framework using Global Moran’s I with permutation tests, and delineated local clustering by classifying local indicators of spatial association (LISA) types based on Local Moran’s I. We then measured the magnitude and stage-wise evolution of inter-township disparities using the Gini coefficient and the Theil T index. Finally, we applied GeoDetector factor, interaction, and risk detection to identify dominant drivers, interaction enhancement, and class-based contrasts. The results show significant and persistent positive spatial autocorrelation in forest carbon density from 2002 to 2024, with Moran’s I ranging from 0.68786 to 0.73849 (p < 0.01). Significant LISA units account for 40.74%–45.37% of townships, and the pattern is dominated by high–high (HH) and low–low (LL) clusters. Inequality follows a stage-wise trajectory: it expanded slightly during 2002–2019, converged markedly during 2019–2021, and rebounded modestly by 2024, while remaining below the levels observed in 2002 and 2019. Strong type-based differentiation is evident in 2024: mean carbon density is 46.06 t C ha⁻¹ in HH areas versus 17.64 t C ha⁻¹ in LL areas; HH areas contribute 38.44% of total carbon stock, whereas LL areas contribute only 5.08%. In terms of drivers, natural and human factors jointly shape the spatial pattern and commonly exhibit interaction enhancement. Elevation (q = 0.7832), slope (q = 0.7133), and NPP (q = 0.6373) are the leading natural constraints, while population density (q = 0.6054) and the built-up land ratio (q = 0.5374) are key indicators of human disturbance. Risk detection further indicates a stable negative gradient for the built-up land ratio and nonlinear class differences for population density, implying that once disturbance intensity reaches higher levels, low-value clustering is more likely to persist. By linking clustered spatial structure, stage-wise inequality, and disturbance-related threshold signals, our results support basin-scale zoning and differentiated management at the township level. Specifically, HH clusters should be prioritized for conservation and connectivity maintenance, whereas LL clusters warrant stricter control of built-up expansion and fragmentation to reduce the risk of persistent low-carbon locking under high disturbance. By linking spatial structure, inequality dynamics, and threshold responses, this study provides a quantitative basis for basin-scale zoning to enhance carbon sinks and for implementing differentiated spatial controls. Full article

(This article belongs to the Special Issue Forest Inventory: The Monitoring of Biomass and Carbon Stocks—2nd Edition)

22 pages, 684 KB

Open AccessArticle

EUTR and Timber Legality Governance in the Forestry Sector in Slovakia: From Overlooking to Overregulating

by Miloš Murina, Lenka Halušková and Jaroslav Šálka

Forests 2026, 17(3), 311; https://doi.org/10.3390/f17030311 (registering DOI) - 28 Feb 2026

Abstract

This study examines how legal and institutional reforms associated with the European Union Timber Regulation reshaped timber legality governance in Slovakia, with particular attention to changes in actor constellations, competencies, and coordination mechanisms within the domestic forestry sector. The analysis draws on Actor-Centred Institutionalism and is based on document analysis and semi-structured interviews with key stakeholders. The results show that, although Slovakia achieved formal legal alignment and established the required institutional structures, implementation was characterised by fragmented competencies, overlapping responsibilities, and deficiencies in coordination and information exchange. While material and organisational resources were generally perceived as sufficient, these governance challenges limited the effectiveness and predictability of enforcement. These findings demonstrate that regulatory reforms may, in certain contexts, reinforce pre-existing institutional fragmentation rather than resolve it. The study provides policy-relevant insights for the ongoing transition to the European Union Deforestation Regulation, highlighting the importance of addressing coordination and institutional design at an early stage of implementation. Full article

(This article belongs to the Special Issue Forest Economics and Policy Analysis)

17 pages, 2221 KB

Open AccessArticle

Phosphorus Acquisition Strategy of Different Wild Rhododendron Species Modulates Soil Phosphorus Cycle in Subtropical Montane Forest Ecosystems

by Yuwen Lin, Chan Chen, Yan Liu, Juyang Liao, Linshi Wu, Xiangdong Liu, Huihui Xi, Yaqi Huang and Xinyu Yi

Forests 2026, 17(3), 310; https://doi.org/10.3390/f17030310 (registering DOI) - 28 Feb 2026

Abstract

Montane forests are commonly limited by phosphorus (P) scarcity, yet Rhododendron species persist via specialized P-acquisition strategies. However, the microbial processes governing P utilization among wild Rhododendron species remain unclear. We collected soil and root samples from three wild Rhododendron species—Rhododendron latoucheae Franch. (R. latoucheae), Rhododendron fortunei Lindl. (R. fortunei) and Rhododendron simsii Planch. (R. simsii)—in a montane forest and analyzed soil P fractions, acid phosphatase activity, and fungal community traits to investigate their relationships with P cycling. The results showed significant differences in P fraction contents between non-rhizosphere and rhizosphere soils among the three species. In R. fortunei, rhizospheric NaOH-Po decreased tenfold while H₂O-Pi increased by 9.13 mg/kg, indicating a shift toward labile P. In contrast, R. latoucheae and R. simsii showed increases in moderately labile P by 32.54% and 22.09%, respectively. R. latoucheae exhibited the lowest acid phosphatase activity in non-rhizosphere soil (4.810 ± 0.560 μmol/d/g), which increased significantly in the rhizosphere. Fungal community analysis revealed a significant enrichment of Podila in the rhizosphere of R. latoucheae (10.84%) and R. simsii (9.17%), while Penicillium (6.80%), Trichoderma (3.65%) and Mortierella (5.83%) were dominant in the R. fortunei rhizosphere. R. latoucheae mineralized organic P through acid phosphatase hydrolysis driven by nutrient scarcity. R. fortunei likely mobilizes inorganic P through ericoid mycorrhizal-associated secretion of organic acids and the activity of specialized phosphate-solubilizing fungi facilitated by high substrate availability. Soil nutrients (SOC, TN,

N O_{3}^{-}

-N) influenced fungal abundances and indirectly shaped soil P fractions, whereas fungal taxa abundance in the rhizosphere directly drove P turnover. Our results confirm that different wild Rhododendron species employ distinct P-acquisition strategies mediated by rhizosphere fungi and enzyme activities, and provide new insights into microbial-driven P cycling in montane forests. Full article

(This article belongs to the Section Forest Ecophysiology and Biology)

► Show Figures

Figure 1

16 pages, 2414 KB

Open AccessArticle

Canebrake and Associated Forest Structure Influence Avifauna Occurrence

by Thanchira Suriyamongkol, Brent S. Pease, James J. Zaczek, Jon E. Schoonover, Clayton K. Nielsen and John W. Groninger

Forests 2026, 17(3), 309; https://doi.org/10.3390/f17030309 (registering DOI) - 28 Feb 2026

Abstract

Past restoration of hardwood forests prioritized planting of woody vegetation cover, particularly oaks (Quercus spp.). This restoration regime often did not consider other microhabitat components, which failed to restore habitat complexity. Giant cane (Arundinaria gigantea (Walter) Muhl.) was an important microhabitat feature for creating a dense understory structure within the hardwood forest landscape. Many bird species are associated with stands of giant cane (canebrakes) for food, cover, and nesting ground. The decline of canebrakes may reduce nesting and foraging habitat, negatively impacting bird communities. Here, we used a hierarchical multi-species occupancy model to assess how giant cane and its associated overstory forest structure influenced breeding bird occupancy in southern Illinois. Bird surveys were conducted from May to July 2022–2024 at 100 site-years using passive acoustic monitoring. Responses to the vegetation structure (tree density and size) and canebrakes varied among species and nesting guilds (overstory, understory, and ground). Occurrence probabilities of 54% of the bird species increased with the presence of canebrake. We did not find any significant relationships between bird occupancy and vegetation structure and canebrake characteristics. Overall, maintaining a hardwood forest stand with a heterogeneous canopy cover would create variations in light environments, allowing canebrakes to benefit bird species across nesting guilds. Full article

(This article belongs to the Section Forest Biodiversity)

► Show Figures

Figure 1

21 pages, 4216 KB

Open AccessArticle

Global Research Trends in Forest Fuels: A Bibliometric Visualization and Case Study in China (2010–2025)

by Xinshuang Lü, Tuo Li, Yurong Liang, Hu Lou and Long Sun

Forests 2026, 17(3), 308; https://doi.org/10.3390/f17030308 (registering DOI) - 28 Feb 2026

Abstract

Frequent forest fires cause serious damage to ecosystems and socioeconomic systems, increasing the importance of fire prevention and risk assessment. Forest fuel is a fundamental determinant of forest fire behavior and a key component of fire risk management. However, a systematic synthesis of its global research evolution and emerging scientific challenges remains relatively insufficient. On the basis of 1257 publications retrieved from the Web of Science Core Collection (2010–2025) with the themes of “wildfire fuel” and “forest fuel,” this study employed CiteSpace for bibliometric analysis to systematically investigate research trends, collaboration patterns, and thematic evolution. The results show that forest fuel research has exhibited sustained growth overall, with notable peaks in 2016 and 2020, and reaching a historical high in 2023. The United States dominated both in publication output and institutional collaboration networks, forming a core research cluster together with Australia and Canada. Keyword co-occurrence and burst analyses revealed a shift in research hotspots—from early focus on forest fuel models and risk assessment at the wild–urban interface (WUI)—toward concerns about climate-change-driven fire seasonality, fuel moisture dynamics, and emergency response issues, reflecting the growing influence of climate change on wildfire patterns. Notably, this study identified several critical research gaps, including limitations in cross-regional integration of fuel moisture studies, insufficient attention to ignition prevention in WUI residential settings, and a lack of reproducible, open bibliometric workflows. By systematically mapping the knowledge structure and evolutionary trajectory of forest fuel research, this study provides a globally informed knowledge framework for the future advancement of forest fuel science and its deeper integration with forest fire management and policy making. Full article

(This article belongs to the Section Natural Hazards and Risk Management)

► Show Figures

Figure 1

32 pages, 3198 KB

Open AccessArticle

Attentional BiLSTM with Ecological Process Constraints for Carbon–Water Flux Prediction in Cold, Temperate Coniferous Forests

by Xin Wang, Xingyu Mou, Hui Chen, Qingyu Lu, Xinjing Zhang, Chengcheng Wang, Yumin Liu, Yang Chen, Xin Xu, Ruixiang Song, Ying Zhang and Chang Lan

Forests 2026, 17(3), 307; https://doi.org/10.3390/f17030307 (registering DOI) - 28 Feb 2026

Abstract

Addressing the challenges in predicting carbon–water fluxes in cold, temperate coniferous forests—specifically, the strong heterogeneity of driving factors, the significant non-linearity of processes, and the lack of consistency of ecological mechanisms in data-driven models—this paper constructs a Multi-Channel Fusion Attention BiLSTM (MCF-ABiLSTM) model. This model is designed for the joint prediction of Net Ecosystem Exchange (NEE) and Latent Heat Flux (LE). The model adopts a multi-channel structure to separately characterize meteorological, soil, and historical flux information, combining channel attention and temporal attention mechanisms to enhance the identification of key driving factors and critical temporal scales. On this basis, dynamic Water Use Efficiency (dWUE) and Sensitivity of Carbon–Water (SCW) indices are proposed to characterize the synergistic response features of carbon uptake and evapotranspiration under humidity and temperature gradients. The stable ecological relationships revealed by these indices are explicitly introduced into the model training process as ecological process consistency constraints, thereby guiding the model to adhere to known physiological mechanisms while improving prediction accuracy. Experimental results demonstrate that the MCF-ABiLSTM model outperforms various benchmark models in predicting both NEE and LE. Furthermore, flux contribution decomposition results indicate that the model’s response structure to environmental drivers is highly consistent with the known carbon–water coupling mechanisms of cold, temperate coniferous forests. This study achieves organic integration of high-precision carbon–water flux prediction, ecological process constraints, and mechanism analysis, providing a modeling framework that possesses both predictive capability and ecological interpretability for research on the carbon–water cycle in cold, temperate forest ecosystems. Full article

(This article belongs to the Special Issue Forest Carbon Management and Monitoring: Insight from Silvicultural Practices and Climate Change)

15 pages, 2127 KB

Open AccessArticle

Spatial Variation and Seasonal Dynamics of Leaf Stoichiometry in Vascular Epiphytes

by Tao Hu, Yanyu Ai, Yumei Yan, Tingting Zhang, Yi Jin, Zuobing Liang, Xin Xiong and Wenyao Liu

Forests 2026, 17(3), 306; https://doi.org/10.3390/f17030306 - 27 Feb 2026

Abstract

Understanding spatial and seasonal variations in leaf stoichiometry is essential for understanding plant nutrient-use strategies and their implications for ecosystem biogeochemical cycling. Although broad-scale stoichiometric patterns have been well documented for terrestrial plants, comparable evidence for vascular epiphytes remains limited. Here, we examined spatial and seasonal variation in leaf stoichiometry of vascular epiphytes by integrating field data from subtropical and tropical forests in southwestern China with a global literature synthesis. At the global scale, leaf nitrogen and phosphorus concentrations (LNC and LPC) of vascular epiphytes were significantly related to climate variables, whereas no clear latitudinal pattern was detected for leaf N:P ratios. At the regional scale, vascular epiphytes in the subtropical montane moist forest exhibited higher LNC and LPC and lower C:N and C:P ratios than those in the tropical seasonal rainforest. At the local scale, LPC of epiphytes was positively correlated with host LPC, whereas LNC showed a weak but statistically significant association with N availability in canopy soils. Seasonally, evergreen epiphytes exhibited higher leaf nutrient concentrations during the rainy season, and deciduous species showed significantly higher stem N, P, and K concentrations during the dry season, indicating contrasting seasonal nutrient-use strategies. Our results demonstrate that leaf stoichiometry of vascular epiphytes is jointly shaped by climate, canopy-level nutrient dynamics, and seasonal regulation, and differs fundamentally from patterns commonly observed in terrestrial plants. These findings highlight the importance of considering canopy-specific processes and fine-scale species turnover when assessing large-scale stoichiometric patterns and forest nutrient cycling. Full article

(This article belongs to the Section Forest Ecophysiology and Biology)

► Show Figures

Figure 1

27 pages, 2572 KB

Open AccessArticle

Valuing Forest Restoration Through Environmental Attitudes: A Hybrid Choice Modelling Approach

by Chulhyun Jeon and Danny Campbell

Forests 2026, 17(3), 305; https://doi.org/10.3390/f17030305 - 27 Feb 2026

Abstract

Forest ecosystems are increasingly degraded by natural disasters and human activities, intensifying the need for large-scale restoration. Because restoration outcomes are long-term, uncertain, and largely non-market, understanding how environmental attitudes relate to public preferences and willingness to pay (WTP) is important for socially acceptable and financially feasible policy design. Using a discrete choice experiment in Korea, this study applies a hybrid choice framework that incorporates latent attitudinal variables into a mixed logit structure, allowing attitudes to interact with preference heterogeneity across restoration attributes. Results show significant heterogeneity in choices and WTP. The model identifies two segments with distinct trade-off patterns: one is more sensitive to risk and payment burden, while the other places relatively greater value on restoration and access-related improvements. Although attitudinal indicators are statistically relevant, segment differentiation is more strongly associated with risk sensitivity and cost aversion than with attitudes alone. Compared with conventional choice models, the latent-attitude specification improves behavioural interpretability and model fit, and yields policy-relevant WTP estimates. Overall, the findings indicate that attitudinal information is complementary to economic and risk-related factors, supporting more targeted and publicly aligned forest-restoration policies. Full article

(This article belongs to the Section Forest Inventory, Modeling and Remote Sensing)

► Show Figures

Figure 1

25 pages, 11641 KB

Open AccessArticle

A Study on the Preparation Process Optimization and Performance Control of Poplar Wood-Based Panels Based on Response Surface Methodology

by Yuan Dai, Fuqiang He, Fajiang Chen and Guicheng Xia

Forests 2026, 17(3), 304; https://doi.org/10.3390/f17030304 - 27 Feb 2026

Abstract

Addressing the challenges of multi-parameter interactions and unclear micro-mechanisms in poplar biomass panel manufacturing, this study employed a multi-scale approach integrating statistical optimization, microstructural characterization, and mechanism validation. A central composite design was used to investigate the effects of pressing time, pressure, and baking temperature (conditioning step) on modulus of rupture (MOR), modulus of elasticity (MOE), water absorption (WA), and thickness swelling (TS), establishing predictive models for multi-objective performance. Quantitative SEM analysis correlated macroscopic properties with microstructural parameters (porosity, pore size distribution, fiber–fiber contact ratio), elucidating how process conditions govern performance via interface quality and material densification. The optimized parameters yielded panels with MOR of 30.04 MPa, MOE of 10,716 MPa, WA of 4.98%, and TS of 1.75%. Modifier incorporation enhanced MOR and MOE by 23.10% and 26.38%, respectively, while reducing WA and TS by 50.59% and 29.89%. SEM confirmed an improvement in fiber–matrix interfacial bonding under optimized conditions. Environmental emission and combustion tests validated compliance with green development principles. This work establishes a cross-scale framework linking processing, microstructure, and performance, offering theoretical foundations for green manufacturing of high-performance biomass panels. Full article

(This article belongs to the Special Issue Integrated Forest Products Biorefinery Perspectives)

13 pages, 6627 KB

Open AccessArticle

Reconstructing Late-Holocene Paleoenvironments from the World’s Most Inland Rhizophora mangle

by Gerald Alexander Islebe, Carlos M. Burelo-Ramos, Alejandro Antonio Aragón-Moreno, Nuria Torrescano-Valle, Héctor Abuid Hernández-Arana and Jesús Manuel Ascencio-Rivera

Forests 2026, 17(3), 303; https://doi.org/10.3390/f17030303 - 27 Feb 2026

Abstract

This study presents a multiproxy paleoecological reconstruction from Laguna El Cacahuate, located ~180 km inland in the floodplain of Tabasco, southeastern Mexico, where red mangrove (Rhizophora mangle L.) forms persistent forest stands under freshwater conditions. We analyzed a 180 cm sediment core using pollen analysis, X-ray fluorescence geochemistry, and radiocarbon dating to investigate the environmental drivers of inland mangrove expansion. The core spans the last ~5200 years, capturing major shifts in vegetation and hydroperiod change. During the mid-Holocene, herbaceous freshwater taxa (Poaceae, Cyperaceae) dominated the floodplain under variable hydroclimatic conditions and high clastic input. The appearance of Rhizophora mangle pollen around 750 cal yr BP marks a significant ecological transition coinciding with geochemical indicators of stabilized flooding and reduced sedimentation. This inland colonization aligns temporally with increased regional precipitation and possible hydrogeomorphic changes following the 13th-century Plinian eruption of El Chichón. Unlike coastal mangroves, the persistence of Rhizophora under freshwater conditions supports the interpretation of this species as a facultative halophyte and indicates high resilience to long-term hydrological shifts. These findings provide critical insight into the ecological plasticity of mangroves, the paleoenvironmental history of the lower Usumacinta–San Pedro Basin, and the importance of integrating long-term records for wetland conservation strategies under future climate scenarios. Full article

(This article belongs to the Special Issue From Past to Present: Mangroves of the Northern Neotropics)

► Show Figures

Graphical abstract

31 pages, 3449 KB

Open AccessArticle

Generative AI and Simulation-Based Data Augmentation for Enhanced Object Detection in Low-Data Forestry Environments

by Krzysztof Wołk, Ramana Reddy Avula, Aleksi Narkilahti, Marek S. Tatara, Jacek Niklewski and Oleg Żero

Forests 2026, 17(3), 302; https://doi.org/10.3390/f17030302 - 27 Feb 2026

Abstract

Detecting rare ground-level obstacles (e.g., large boulders) in dense boreal forests from low-altitude UAV RGB imagery is challenging due to limited annotated data, strong background clutter, and expensive field labeling. This paper evaluates two complementary synthetic-data augmentation pipelines for low-data forestry object detection: segmentation-guided diffusion inpainting, where SegFormer-derived forest-floor masks constrain Stable Diffusion inpainting to plausible insertion regions, and simulator-based generation in Unreal Engine 5 with controlled domain randomization and automatic annotations. We conduct a ten-fold cross-validation study on a real UAV dataset of 64 images and report both accuracy and stability across folds. Compared to real-only training (mean mAP50 ≈ 0.579; mAP50-95 ≈ 0.350), inpainting improves mean performance (mAP50 ≈ 0.647; mAP50-95 ≈ 0.435) while substantially reducing cross-fold variance and lifting the worst-case fold from 0.301 to 0.619 in mAP50. Simulator augmentation yields slightly lower mean accuracy (mAP50 ≈ 0.546; mAP50-95 ≈ 0.344) but markedly improves robustness by mitigating collapse on difficult splits (minimum mAP50 0.496 vs. 0.301). These results indicate that carefully curated generative augmentation can reduce failure risk and improve generalization in extremely data-limited forestry detection settings without additional field data collection. Full article

(This article belongs to the Topic Artificial Intelligence, Remote Sensing and Digital Twin Driving Innovation in Sustainable Natural Resources and Ecology)

► Show Figures

Figure 1

31 pages, 1524 KB

Open AccessArticle

How Can Forestry Worker Households Enhance Sustainable Livelihood Levels Through Natural Forest Management?

by Bo Yu, Hongge Zhu and Bo Cao

Forests 2026, 17(3), 301; https://doi.org/10.3390/f17030301 - 26 Feb 2026

Abstract

Forestry projects have long faced the inherent tension between stringent conservation objectives and the enhancement of human well-being, making it increasingly important to assess the sustainable livelihoods of participating households. The Natural Forest Management Project in the Northeast and Inner Mongolia state-owned forest region (NSFR) aims to transform high-quality ecological products and services into inclusive public benefits while providing reasonable compensation for ecological conservation and restoration efforts. This approach seeks to achieve synergies among ecological protection, economic development, and livelihood improvement. Drawing on six consecutive years (2017–2022) of longitudinal micro-level household survey data, this study quantifies the sustainable livelihood levels of households participating in natural forest management. A Natural Forest Involvement (NFI) index was constructed to measure their degree of participation. Furthermore, the well-being effects of frontline participants in natural forest management activities were investigated. The findings indicate that the overall sustainable livelihood capital of these households shows a steady upward trend across NSFR, significant disparities exist among different areas. Moreover, approximately half of forestry worker households are deeply embedded in the natural forest management system, and this engagement pattern negatively affects households’ sustainable livelihood capital. These results not only enrich the empirical literature on forestry project effectiveness but also offer relevant insights for forestry project design and policy formulation in other developing countries. Full article

(This article belongs to the Special Issue Economic Assessment Research in Agroforestry Products, Environmental, and Renewable Resources Issues)

► Show Figures

Figure 1

22 pages, 2440 KB

Open AccessArticle

Domestication Level and Soil Fertility Differentially Alter Soil Carbon Sequestration Potential in Breadfruit (Artocarpus)

by Lindsey Gohd, Louise M. Egerton-Warburton, Ellinore Porter, Noel Dakar Dickinson, Nyree J. C. Zerega and Ray Dybzinski

Forests 2026, 17(3), 300; https://doi.org/10.3390/f17030300 - 26 Feb 2026

Abstract

Plant domestication studies have traditionally focused on morphological factors that are under direct selection, e.g., fruit size, overlooking the consequences of domestication on ecosystem services. We addressed this knowledge gap by documenting for first time the soil carbon (C) sequestration potential in wild relatives and domesticated cultivars of breadfruit (Artocarpus), a long-lived tree crop. We evaluated aggregate-bound and bulk organic C pools in breadfruit wild relatives and domesticates in soils that varied in nitrogen (N) and phosphorus (P) fertility with management practices (fertilizer and mulch). We determined whether C levels were linked to plant domestication, abiotic factors (N, P, pH, and texture), or biotic factors with known links to C accrual (arbuscular mycorrhizal fungi (AMF), and microbial biomass). In low N or N: P soils, increasing breadfruit domestication was associated with reductions in macroaggregate C (by 50%) and bulk C (host determinism); these shifts were associated with AMF hyphal productivity (50% lower than in wild relatives), soil N and P, and microbial biomass. With a high soil N fertility, the levels of aggregate and bulk soil C were similar between wild relatives and domesticates (plasticity). Despite the limited number of cultivars sampled (n = 10) and the different management practices among sites, our findings suggest domestication effects on ecosystem services, especially those modulated by AMF and soil N fertility. The calculated soil C stocks averaged 99.5 Mg C/ha (range 70–122 Mg C/ha), supporting the possibility of C accrual in breadfruit agroforestry. Full article

(This article belongs to the Special Issue Litter Decomposition and Soil Nutrient Cycling in Forests)

► Show Figures

Figure 1

17 pages, 7489 KB

Open AccessArticle

Estimation and Spatial Mapping of Soil Carbon Stock in the Perigi, South Sumatra, Indonesia, Considering Peat Depth Variability

by Jumi Cha, Minjeong Kim, Sunjeoung Lee, Jinwoo Park and Eunho Choi

Forests 2026, 17(3), 299; https://doi.org/10.3390/f17030299 - 26 Feb 2026

Abstract

Tropical peatlands are major carbon sinks that store a significant portion of the world’s soil carbon. Although approximately 37% of the world’s tropical peatlands are located in Indonesia, these ecosystems face continuous degradation from drainage and fires. Despite the urgent need for restoration, precise local-scale baseline data remain insufficient. This study identified the spatial distribution of peat depth and soil organic carbon (SOC) stocks in Perigi, South Sumatra, an area currently lacking foundational information. We conducted field surveys at 73 sampling locations in Perigi to analyze peat depth and SOC content, developing predictive models using satellite-derived environmental variables. Based on these models, the study estimated spatial distributions and generated spatial uncertainty maps. The results indicate the potential existence of peatlands in areas not reflected in existing national maps, highlighting the necessity of detailed local-scale assessments. Furthermore, hydrological factors exerted a strong influence on both models, suggesting that the hydrological environment is a primary determinant of peatland formation in Perigi. These findings provide a scientific basis for understanding spatial characteristics and discussing future restoration and management strategies for vulnerable tropical peatland ecosystems. Full article

(This article belongs to the Special Issue Tropical Forest Ecology Monitoring—New Techniques and Future Implications)

25 pages, 4825 KB

Open AccessArticle

Assessing Forest Habitat Structure with LiDAR Across Ungulate Management Gradients

by Claudia C. Jordan-Fragstein, Katharina Gungl, Dominik Seidel and Michael G. Müller

Forests 2026, 17(3), 298; https://doi.org/10.3390/f17030298 - 26 Feb 2026

Abstract

Ungulate browsing is a major driver of forest regeneration dynamics and habitat structure in managed temperate forests, influencing species composition, regeneration success, and long-term stand development. Traditional assessments of browsing impacts often rely on field-based indicators such as regeneration density or visual cover, but these metrics provide limited insight into three-dimensional habitat structure. Mobile handheld LiDAR offers highly detailed measurements of forest structure, enabling objective and reproducible quantification of structural complexity that complements and extends conventional field-based methods. In this study, we applied handheld LiDAR as an innovative indicator for habitat structure within the ungulate browsing zone (<2 m height) to evaluate structural development across sites differing in management context. Paired fenced and unfenced plots (12 × 12 m) were surveyed within the WiWaldI project framework in 2019 and 2023 and compared across three hunting regimes representing different degrees of ungulate population management. Structural complexity was quantified by deriving box-counting dimensions from LiDAR point clouds, providing a measure of spatial arrangement and density relevant to ungulate–vegetation interactions. To support interpretation and ecological context, we complemented LiDAR indicators with streamlined field assessments. Based on this framework, we assessed whether forest structural complexity and visual cover differ among regions and over time, and whether ungulate browsing induces detectable structural differences between fenced whether structural differences between fenced and unfenced plots are detectable. We further examined the relative importance of tree species composition, plant architecture, and hunting regime as drivers of three-dimensional habitat structure. A simplified octant method characterized the spatial distribution of woody regeneration, while a silhouette-based approach quantified visual cover from the perspective of a standard ungulate profile. These auxiliary measures contextualize visual and spatial aspects of structure that LiDAR metrics capture with minimal observer bias. LiDAR studies have previously demonstrated potential for linking high-resolution structural data to ungulate habitat use, and our approach extends this by focusing on structural complexity as a habitat indicator. Results show a consistent increase in LiDAR-derived structural complexity between 2019 and 2023 across all regions. This increase occurred across management contexts and was not consistently explained by fencing or hunting regime effects, suggesting that site conditions, forest composition, and successional processes were dominant drivers during the observation period. Hunting regime showed no statistically significant and no consistent effect on structural complexity across regions or years. Visual cover metrics varied strongly among regions and species and declined over time. These findings suggest that three-dimensional habitat structure information has the potential to enhance the evaluation of ungulate impacts and may support evidence-based forest and wildlife management, particularly when interpreted in the context of site conditions and successional dynamics. Beyond ungulate impact assessment, the presented handheld LiDAR approach provides a scalable remote sensing framework for precision forestry by capturing three-dimensional structural attributes that are directly linked to forest stability, resilience, growth dynamics, and stand-level species mixing, thereby supporting evidence-based forest management recommendations. Full article

(This article belongs to the Section Forest Health)

► Show Figures

Figure 1

27 pages, 9898 KB

Open AccessArticle

Hydrology and Carbon Flux Interconnections in a Hemiboreal Forest: Impacts of Heatwaves in Järvselja, Estonia

by Felipe Bortolletto Civitate, Emílio Graciliano Ferreira Mercuri and Steffen Manfred Noe

Forests 2026, 17(3), 297; https://doi.org/10.3390/f17030297 - 26 Feb 2026

Abstract

Understanding the coupling between hydrological dynamics and carbon sequestration is critical for predicting hemiboreal forest resilience to climate extremes. This study investigates water–carbon interactions in the Järvselja forest (Estonia) through a multi-objective hybrid modeling framework. We integrated long-term (2014–2025) eddy covariance flux measurements and daily meteorological data with a coupled architecture combining the process-based GR4J-Cemaneige model and a Long Short-Term Memory (LSTM) network. To validate the physical consistency of the deep learning component, we employed Support Vector Regression (SVR) diagnostic probes to map LSTM internal cell states against ERA5 soil moisture reanalysis data and in situ water table measurements. The combined LSTM + GR4J-Cemaneige model outperformed standalone approaches in the calibrated Reola catchment (NSE = 0.887), so by assuming hydrological similarity the hybrid model was regionalized to the streamflow ungauged Kalli basin. An in silico interpretability probe validated that the LSTM implicitly encoded physically meaningful soil moisture dynamics (

r > 0.9

) without explicit training data. The analysis revealed that the 2018 heatwave triggered a synchronous collapse in water availability and carbon uptake, shifting the ecosystem from a robust sink to a net source. A significant legacy effect was observed, with carbon sequestration capacity lagging behind hydrological recovery for two years. The results of this paper substantiate the influence of climate warming on hemiboreal forests, demonstrating its implications for soil hydrology and the availability of water to sustain photosynthesis. Full article

(This article belongs to the Special Issue Water and Carbon Cycles and Their Coupling in Forest)

20 pages, 5738 KB

Open AccessArticle

Regulatory Effects of Urban Vegetation and Urban Forests on the Thermal Environment of Megacities: A Comparative Study Based on Explainable Machine Learning

by Tianyin Li, Zhengru Li and Yang Yu

Forests 2026, 17(3), 296; https://doi.org/10.3390/f17030296 - 26 Feb 2026

Abstract

Under the dual pressures of climate change and intensive urban expansion, which jointly exacerbate urban heat risks, optimizing the urban thermal environment through vegetation has become a core pathway for climate adaptation. However, accurately quantifying the nonlinear cooling responses of vegetation under complex urban morphologies and diverse geomorphic conditions remains a major scientific challenge in achieving efficient heat-resilient urban planning. This study takes three representative megacities in China—Beijing, Shanghai, and Shenzhen—as case studies. By integrating multi-source datasets, an urban spatial morphology indicator system was constructed that encompasses key dimensions of the natural environment, urban morphology, and socioeconomic factors. Eleven machine learning models were applied to model and compare urban land surface temperature (LST). The results demonstrate that the CatBoost model exhibited superior performance in simulating complex urban thermal environments (R² = 0.683–0.873), effectively capturing the interactive effects among multidimensional factors. The findings reveal a dual differentiation pattern of “topographic constraint–morphological dominance” in urban thermal environments: in mountainous cities, elevation and mountain forests act as rigid cooling barriers that restrict the spread of heat islands; whereas in plain cities, thermal conditions are primarily governed by the synergistic warming effects of impervious surface expansion and intensive human–economic activities. More importantly, the study identifies a significant nonlinear threshold effect of vegetation cover (NDVI) on LST reduction—only when vegetation coverage exceeds a critical threshold can large-scale cooling benefits be activated to effectively offset the thermal accumulation associated with high GDP intensity. Based on these insights, the study proposes differentiated climate-adaptive spatial planning strategies: mountainous cities should strictly maintain ecological redlines at mountain fronts to safeguard macro-scale cooling sources, while high-density plain cities should focus on integrating green space patches to surpass the “cooling threshold” and enhance vertical greening systems. These findings provide a quantitative scientific basis for improving urban thermal resilience. Full article

(This article belongs to the Special Issue The Role of Urban Vegetation and Forests in Climate Change Adaptation: Implications for Air Quality and Thermal Comfort in Cities)

► Show Figures

Figure 1

16 pages, 1675 KB

Open AccessArticle

Do Riparian Plant Hybrids Mimic Leaf Mixtures in Terms of In-Stream Litter Dynamics?

by Walton M. Andrews, Carri J. LeRoy and Dylan G. Fischer

Forests 2026, 17(3), 295; https://doi.org/10.3390/f17030295 - 26 Feb 2026

Abstract

Both riparian tree species diversity and genetic diversity can influence streams through leaf litter decomposition; however, these two sources of variation have not been compared directly. Here, we compare leaf litter decomposition for a physical mixture of two Populus species to the litter from an F₁ hybrid (a genetic mixture) of the same two species. Leaf litter was collected from a common garden for an F₁ hybrid between Japanese poplar (Populus maximowiczii A. Henry) and black cottonwood (Populus trichocarpa Torr. & A. Gray ex Hook.), as well as both parent species. Four litterbag treatments consisted of litter from the F₁ hybrid, an equal-part mixture treatment of litters from both parents, and litter from each parent in isolation. The hybrid litter had higher C:N content and lower % condensed tannins than either parent species, or the average of the two parents that represented the mixture. While the hybrid and mixture treatments both lost more mass than expected by day 42, the mixture lost relatively more mass than the hybrid and roughly as much as the faster-decomposing P. trichocarpa parent. The hybrid mimicked the mixture, and both supported higher aquatic macroinvertebrate richness and less litter mass remaining than expected based on parent species values, despite differences between the hybrid and mixture in initial phytochemistry. Full article

(This article belongs to the Section Forest Ecology and Management)

► Show Figures

Figure 1

16 pages, 987 KB

Open AccessArticle

Willingness of West Virginia Forest Stewardship Program (FSP) Participants to Establish Bioenergy Crops

by Kathryn Gazal, Robert Burns and Shawn Grushecky

Forests 2026, 17(3), 294; https://doi.org/10.3390/f17030294 - 26 Feb 2026

Abstract

While bioenergy crops are often promoted as a strategy to reduce fossil fuel dependence, adoption among private forest landowners remains limited. This study focuses on private forest landowners enrolled in the West Viginia Forest Stewardship Program, a group characterized by more active management and institutional participation than the broader forest landowner population. We surveyed program participants to identify factors influencing their decision to establish dedicated bioenergy crops. Although general awareness of bioenergy is high, willingness to adopt in the near future remains low. Fewer than 5% of landowners surveyed indicated that they intend to plant bioenergy crops within the next five years. Those who are currently involved in agricultural or forest land use were more likely to adopt, as were those familiar with specific bioenergy crops such as switchgrass, miscanthus, and willow. Participation in government conservation programs also increased adoption likelihood. In contrast, ownership size and age were negatively associated with willingness to adopt. Interestingly, general awareness that many crops can be grown for bioenergy was linked to lower adoption, suggesting skepticism about profitability or feasibility. Farmers were nearly eight times more likely to adopt than non-farmers. The results highlight the need for stable markets, well-aligned incentives, and institutional support rather than information alone. Full article

(This article belongs to the Section Forest Economics, Policy, and Social Science)

► Show Figures

Figure 1

15 pages, 1914 KB

Open AccessArticle

Soil Carbon Flux Responses to Warming and Drought Are Mediated by Soil Moisture and Vary Among Quercus Species

by Amna Saher, Heejae Jo, Jeong-Min Lee, Doy Kim and Yowhan Son

Forests 2026, 17(3), 293; https://doi.org/10.3390/f17030293 - 26 Feb 2026

Abstract

Climate change intensifies temperature extremes and drought frequency. However, the interactive effects of warming and drought on soil carbon fluxes remain poorly understood, particularly during extreme temperature events and across plant species. We conducted a factorial experiment examining warming (+3 and +5 °C) and drought effects on soil CO₂ emissions and CH₄ uptake in one-year-old Quercus variabilis Blume and Quercus acutissima Carruth seedlings during three successive warming periods (period 1, 2–12 July; period 2, 19–30 July; and period 3, 7–18 August 2024). In both species, warming initially increased CO₂ emissions by 23%–26% and subsequently reduced them by 26%–37% during period 2 (coinciding with the rainy season), highlighting critical temperature-moisture interactions. Drought reduced CO₂ emissions by 12%–36%. CO₂ emissions were positively correlated with soil moisture (r = 0.45–0.56). In Q. variabilis, warming initially reduced CH₄ uptake at +5 °C; however, during period 3, uptake increased by 44.5% and 24.8% under +3 and +5 °C treatments, respectively, while the drought treatment reduced CH₄ uptake by 11.7%. Contrarily, Q. acutissima showed no warming or drought treatment effects. These findings demonstrate that soil carbon flux responses to extreme climate conditions exhibit nonlinearity and are affected by soil moisture and species type. Full article

(This article belongs to the Special Issue Belowground Carbon Flux in Forests: Carbon Emission, Storage and Beyond)

► Show Figures

Figure 1

Journal Menu

Journal Browser

► Journal Browser

Highly Accessed Articles

Latest Books

More Books and Reprints...

E-Mail Alert

News

6 November 2025
MDPI Launches the Michele Parrinello Award for Pioneering Contributions in Computational Physical Science

28 February 2026
Meet Us Online at the 5th International Electronic Conference on Forests–Forests at the Crossroads: Integrating Ecology, Technological Innovation, and Governance (IECF 2026), 14–16 September 2026

28 February 2026
MDPI INSIGHTS: The CEO’s Letter #32 - MDPI China and Thailand, China Science Daily, 1,000 Partnerships, R2R

More News & Announcements...

Topics

Propose a Topic

Topic in Buildings, Forests, IJGI, Land, Systems, Remote Sensing

Sustainable Development and Coordinated Governance of Urban and Rural Areas Under the Guidance of Ecological Wisdom—2nd Edition Topic Editors: Jun Yang, Baojie He, Zhi Qiao, Wei Sun, Xiangming Xiao, Ali Cheshmehzangi, Amirhosein Ghaffarianhoseini
Deadline: 31 March 2026

Topic in Atmosphere, Drones, Forests, Grasses, Land, Sustainability

Big Data Analytics for Climate and Human Impacts on Terrestrial Ecosystems Topic Editors: Qing Zhang, Qingfu Liu
Deadline: 31 May 2026

Topic in Atmosphere, Forests, Geosciences, Hydrology, Land, Remote Sensing, Sustainability

Karst Environment and Global Change—Second Edition Topic Editors: Xiaoyong Bai, Yongjun Jiang, Jian Ni, Xubo Gao, Yuemin Yue, Jiangbo Gao, Junbing Pu, Hu Ding, Qiong Xiao, Zhicai Zhang
Deadline: 16 June 2026

Topic in Agronomy, Applied Sciences, Climate, Forests, IJGI, Sustainability, Plants

Climate Change Impacts and Adaptation: Interdisciplinary Perspectives, 2nd Edition Topic Editors: Cheng Li, Fei Zhang, Mou Leong Tan, Kwok Pan Chun
Deadline: 30 June 2026