Restoration Measures Research Articles

Sediments From a Seasonally Euxinic Coastal Ecosystem Show High Nitrogen Cycling Potential.

Coastal ecosystems are susceptible to eutrophication and deoxygenation, which may alter their nitrogen cycle dynamics. Here, we investigated the microbial nitrogen cycling potential in the sediment of a seasonally euxinic coastal ecosystem (Lake Grevelingen, NL) in winter and summer. Activity tests revealed ammonium (NH4 +) oxidation potential with maximum potential rates up to 53 μmol g-1 day-1, even in anoxic sediment layers. A nitrifying microbial community was present in both oxic and anoxic sediment sections (up to 1.4% relative abundance). Nitrate (NO3 -), nitrite (NO2 -), and nitrous oxide (N2O) reduction potential were prominent across all sediment sections, with the highest potential rates (167 μmol NO3 -∙g-1 day-1) in the surface sediment in summer. Denitrification (79.3%-98.4%) and dissimilatory nitrate reduction to ammonium (DNRA; 1.6%-20.7%) were the major NO3 - removal pathways, as supported by the detection of the narG/napA, nirK/nirS, norB, nosZ and nrfA/otr genes in all sediment sections. The DNRA contribution increased with depth and with the addition of electron donors, such as monomethylamine. Anaerobic ammonium oxidation (anammox) was not detected in these eutrophic sediments. Combined, our results show that there is high potential for nitrogen removal in eutrophic coastal ecosystems, which may help further restoration measures.

Review on the uses, factors, conservation, and restoration measures of Boswellia papyrifera trees in Ethiopia and Eritrea: Review

Abstract. The multipurpose, deciduous tree species Boswellia papyrifera grows in a savanna area that stretches eastward from Northern Nigeria to the highlands of Ethiopia and Eritrea. It is a native Ethiopian dryland tree and is well known for producing frankincense, a non-timber forest product. Despite its wide economic, ecological, and social importance, the species is facing serious problems and its area coverage is declining from year to year. Therefore, the objectives of this review paper were investigating some points on the current contribution of the B. papyrifera predominated woodlands, its regeneration problems, and future conservation. A series of summaries was prepared for this article's compilation in the form of a critical analysis and discussion, taking into account a variety of perspectives on opposing viewpoints, theories, and methods. Drawing from an extensive collection of literature, the review presents the varieties of ways in which B. papyrifera is used, outlines the major factors for its decline, and discusses possible ways of conservation and restoration of the tree’s populations. The findings point to uncontrolled tapping of the trees, resulting in their overexploitation, which is being exacerbated by an array of problems with the species regeneration, natural factors such as insects and wind, as well as by climate change. Due to its significance, B. papyrifera must be preserved, and the recommended measures include area closures, proper tapping techniques with adequate frequencies, and enrichment planting, supported by rigid regulations.

A robust resilient-oriented design for the cyber-physical distribution system against sequential typhoons

The cyber-physical deep coupling makes distribution systems face severe operation risks under small-probability and high-impact disasters. To enhance the resilience of cyber-physical distribution systems against typhoons, this paper proposes a resilience-oriented robust optimization model, in which planning-operational restoration measures are incorporated into a prevention and emergency response framework. In the prevention response stage, line hardening, battery storage systems and soft open point deployment, as well as wireless communication configuration are conducted before typhoons. During the typhoons, the emergency response aims at mitigating power outages by regulating battery storage systems, soft open points, local controllers, and distribution generations. Moreover, considering the time-varying characteristics of typhoon path, a spatially and temporally extended N-k uncertainty set is constructed for overhead line status. Thereafter, the proposed robust optimization model is recast to a mixed-integer linear programming problem, which can be solved by a nested column-and-constraint generation algorithm. Numerical results show that the proposed resilience-oriented strategies can respond rapidly to the worst-case scenario of typhoon attacks with cost-effective performance.

A GIS-Based Approach to Land Take Monitoring and Actual Land Use Analysis

In September 2023, the European Commission approved a proposal for a Directive on Soil Monitoring and Resilience, representing a significant step forward in the EU’s efforts toward more sustainable land use management. The proposal mandates the monitoring of land take and soil sealing indicators but does not specify the method for determining their values. Instead, it allows for the use of scientific literature or other publicly available methods. This study presents a methodology based on GIS analyses for monitoring artificial land and the land take indicator. A quantitative analysis of two municipalities in the Podravska region in Slovenia is complemented by a qualitative assessment of detailed actual land use in these municipalities. The results show that the annual land take rate in the period 2019–2022 amounted to 881.96 m2/year·km2 in the municipality of Maribor and 731.31 m2/year·km2 in the municipality of Kungota. If current trends continue, the extent of (semi-)natural land will continue to decline, which is considered unsustainable. Further analysis reveals that the expansion of artificial land in these areas is mainly due to the development of new residential land, accounting for 60.8% of newly converted land in the municipality of Maribor and 50.2% in the municipality of Kungota during the period under review. As the results point to unsustainable land management, the study is aimed at policymakers and public authorities, highlighting the urgent need to limit the conversion of (semi-)natural land and to initiate land restoration measures as compensation for new land take. It may also be of interest to scientists and researchers developing methodologies for monitoring artificial land and refining land take indicators.

Identification and Restoration of Forest Degradation Areas in Shaanxi Province Based on the LandTrendr Algorithm

As an important ecological barrier in Northwest China, the health of forest ecosystems in Shaanxi Province is crucial to regional ecological balance and sustainable development. However, forest degradation has become increasingly prominent in recent years due to both natural and anthropogenic pressures. This study aims to identify the spatio-temporal pattern of forest degradation in Shaanxi Province, construct an ecological network, and propose targeted restoration strategies. To this end, we first built a structural-functional forest degradation (SFD) assessment system and used the Landsat-based detection of trends in disturbance and recovery (LandTrendr) algorithm to identify degraded areas and types; subsequently, we used morphological spatial pattern analysis (MSPA) and the minimum cumulative resistance (MCR) model to construct a forest ecological network and identify key restoration nodes. Finally, we proposed a differentiated restoration strategy for near-natural forests based on the Miyawaki method as a conceptual framework to guide future ecological recovery efforts. The results showed that (1) in 1991–2020, the total area of forest degradation in Shaanxi Province was 1010.89 km2, which was dominated by functional degradation (98%) and structural degradation (87.15%), with significant regional differences; (2) the constructed ecological network contained 189 ecological source sites, 189 ecological corridors, 89 key nodes, and 50 urgently restored; and (3) specific restoration measures were proposed for different degradation conditions (e.g., density regulation and forest window construction for functional light degradation and maintenance of the status quo or full reconstruction for structural heavy degradation). This study provides key data and systematic methods for the accurate monitoring of forest degradation, the optimization of ecological networks, and scientific restoration in Shaanxi Province, which holds great practical significance for establishing a robust ecological barrier in Northwest China.

Hydrological Alterations Accelerate Soil Aggregate and Pore Structure Degradation in the Water‐Level Fluctuation Zone of the Three Gorges Reservoir, China

ABSTRACTSoil aggregate stability and pore structure are key indicators of soil degradation. Waves generated by the water‐level fluctuations could severely deteriorate soil aggregates, which eventually induce soil erosion and several other environmental issues such as sedimentation and flooding. However, due to limited availability of the hydrological alteration data, there is a limited understanding of soil aggregates, intra‐aggregate pore dynamics, and their relationships under periodically flooded soils. The present study has relied on long‐term hydrological alteration data (2006–2020) to explore the impacts of inundation and exposure on soil aggregates and pore structure variations. Soil samples from increasing elevations (155, 160, 163, 166, 169, and 172 m) in the water‐level fluctuation zone of the Three Gorges Reservoir were exposed to wet‐shaking stress and determined soil structural parameters. The overall inundation and exposure ratio (OvI/E) gradually decreased from 1.87 in the lowest to 0.27 in the highest elevation, respectively. Predominant distribution of macropores was recorded in lower elevations, while micropores were widely distributed in the upper elevations. The mean weight diameter (MWD) was significantly lower in the lower (2.4–3.7 mm) compared to upper (5.3–6.0 mm) elevations. The increase in MWD has increased the proportion of micropores (PoN < 50 μm), with R2 = 0.59. This could suggest that the decrease in flooding intensity can create favorable conditions for plant roots growth. The strong flooding stress in lower elevations (i.e., higher values of the OvI/E) accelerated the disintegration of soil aggregates and considerably increased the formation of macropores due to slaking and cracking. The findings of the present study emphasize the need to restore degraded soils in periodically submerged environments by implementing vegetation restoration measures. This could enhance and sustain aggregate stability, which was also proved to increase functional pores under hydrological alterations.

Biofeedback therapy in patients with dysphonia and benign laryngeal pathology after endolaryngeal interventions

To increase the effectiveness of voice restoration in patients with benign organic laryngeal pathology and functional dysphonia after endolaryngeal interventions. 360 patients who underwent surgery for benign organic pathology of the vocal folds were examined. The examination was performed using videolaryngoscopy, videolaryngostroboscopy, computer acoustic analysis of the voice, and a subjective assessment of vocal function by a doctor on the N. Yanagihara scale. In 58 patients in the postoperative period, after the relief of inflammatory phenomena, the voice did not recover, due to the pathological type of phonation: nodular, hypotonic or hypertonic. Voice restoration measures were carried out: phonotherapy for patients of the 1st group, phonotherapy and biofeedback therapy sessions for patients of the 2nd group. According to subjective and objective assessments, biofeedback therapy significantly accelerated voice recovery in patients with hypertonic phonation. Biofeedback therapy had no significant effect on the restoration of vocal function in patients with nodular and hypotonic phonation. In cases where the voice does not fully recover after endolaryngeal interventions, additional therapeutic measures are required: phonotherapy and biofeedback therapy.

PROBLEMS OF REPURPOSING THE MONUMENTS OF RESIDENTIAL ARCHITECTURE FOR CULTURAL AND ARTISTIC FUNCTION

The article examines the main problems in repurposing monuments of residential architecture for cultural and artistic purposes: the economic feasibility of repurposing, the negative impact of groundwater and underground communications on the state of the foundations and footings, the state of the historical object structures, the fine-grained planning scheme that imposes restrictions on changing the purpose of the object for a new function and the emergency state of internal building networks. The main possible directions of such repurposing are identified: a chamber theatre, a thematic museum, a museum of a prominent person and a museum in an open-air museum. Examples of repurposing part of the premises of the former Rodzianko’s apartment building at 14-b Yaroslaviv Val Street for a theatrical function and a list of restoration measures carried out are given. The repurposing of the former house of architect Hilary Majewski at 11 Włókiennicza Street in Lodz for a new function is analyzed. The examples of Kyiv museums – the Bohdan and Varvara Khanenko National Museum of Art (formerly the Kyiv Museum of Western and Eastern Art) and the National Museum “Kyiv Picture Gallery” (formerly the Kyiv National Museum of Russian Art) – highlight the peculiarities of the change in traditional museum functions in wartime.

When recreational infrastructure contributes to endangered species conservation: genetic evaluation of translocated Primula vulgaris (Primulaceae) populations in a golf course area.

Species in intensively used agricultural landscapes face severe disturbance and random destruction, making alternative restoration measures necessary. In Western Europe, Primula vulgaris, a perennial heterostylous herb, is currently restricted to fragmented habitats in farmlands. Translocations were conducted at five locations in a golf course area, using outcrossed juveniles originating from remnant populations. This study aimed to: (1) evaluate the golf course's contribution to species conservation, (2) assess source population representativeness and (3) determine the impact of translocations on genetic diversity and connectivity of neighbouring populations. We conducted a demographic (census size, demographic structure, morph ratio) and genetic (genetic diversity and structure, connectivity network, barrier and parentage analyses) study, using 13 nuclear microsatellite loci across adult and juvenile generations of translocated, adjacent and remote metapopulations, for pre- and post-translocation periods. The translocated golf course populations nearly doubled local census size, provided one-third of the breeders, harboured similar genetic diversity to wild remnant populations of the agricultural area and were representative of source populations. Most populations, even translocated and large ones, were senescent. There was overall genetic erosion over time, threatening long-term population sustainability. Genetic erosion was associated with flowering population size and pin proportion, and was exacerbated in juveniles, suggesting mate limitation and genetic drift effects but also illegitimate pollination. Translocations enhanced contemporary pollen flow and potential connectivity among adjacent populations, although some barriers among remnant populations persisted. Using recreational infrastructures as alternative sites for translocation of sufficiently large plant numbers, at distances that enable effective pollen flow to integrate new populations into the local network, can contribute to preserve species regional demographic and genetic pools, while increasing connectivity. However, habitat and landscape management of remnant populations remains highly desirable, for safeguarding existing old, still genetically diverse adults, and to guarantee balanced morph ratios and population rejuvenation.

Conservation, rehabilitation and enhancement of Yamchun fortress, Wakhan Valley, Tajikistan

The World Bank funded the restoration of the ancient fortress of Yamchun in the Tajik region of Gorno-Badakhshan to ensure its conservation and to promote tourism. Located in the Pamir Mountains, an incomparable natural setting, the fortress has a rich history in which its role as a crucial stop for Silk Roads traders stands out. The research and intervention project developed by INES Ingenieros, with the counselling of the Miguel Aguiló Foundation, aim to stop the deterioration of the fortress, enhance its heritage value and provide a sustainable management plan. To achieve this, several studies were carried out, including fieldwork, laboratory tests and modern technologies application. The results informed the proposal of restoration measures compatible with the fortress’s heritage values, as well as the most suitable interventions and activities to improve the tourist experience and provide a new, sustainable income source for the Wakhan Valley people. Restoration works are expected to begin in 2025 and will be carried out by a different firm than the project.

RECENT ADVANCES IN STRENGTHENING AND REINFORCING TECHNOLOGIES FOR PAPER DOCUMENTS: A COMPREHENSIVE REVIEW

The reinforcement and strengthening of paper documents have garnered widespread global attention. Delaying the degradation process of paper documents, enhancing their restoration and protection measures hold profound historical and cultural significance for the inheritance of cultural heritage. This study provides a comprehensive review of international advancements in the primary types of strengthening and reinforcement materials as well as the corresponding reaction mechanisms for paper documents. Furthermore, it offers a forward-looking perspective on emerging research trends in the field of reinforcement and preservation for paper documents.

Vegetation dynamics induced by climate change and human activities: Implications for coastal wetland restoration.

Vegetation dynamics induced by climate change and human activities: Implications for coastal wetland restoration.

Dynamic Assessment of the Eco-Environmental Effects of Open-Pit Mining: A Case Study in a Coal Mining Area (Inner Mongolia, Western China)

Scientific and rational monitoring of eco-environmental effects induced by mining activities is a prerequisite for optimizing mining planning and contributes to the advancement of ecological civilization. Remote sensing and multi-source data provide advanced methods for long-term dynamic evaluation of mining-induced eco-environmental effects. This study systematically constructs eco-environmental effect indicators tailored to mining characteristics and establishes quantitative extraction methods based on Landsat data and spectral indices. The Mine Eco-environmental Effect Index (MEEI) was developed using kernel principal component analysis (KPCA). The Heidaigou Open-pit Coal Mine in Jungar Banner was selected as the study area to validate the MEEI’s performance and analyze ecological dynamics across five key temporal phases. Results indicate the following: (1) the KPCA-based MEEI effectively integrates multi-indicator features, offering an objective representation of comprehensive eco-environmental impacts; (2) from 1990 to 2020, the ecological trajectory of the coal mine followed a pattern of “sharp deterioration → gradual slowdown → relative stabilization”, with post-mining restoration and management measures significantly mitigating negative impacts and improving regional ecological quality. This study provides a methodological framework for dynamic evaluation of mining-related eco-environmental effects, supporting sustainable mining practices and ecological governance.

Global evidence: How to reconciles the effect of restoration measures and aridity index on biodiversity and ecosystem multifunctionality in grasslands

Global evidence: How to reconciles the effect of restoration measures and aridity index on biodiversity and ecosystem multifunctionality in grasslands

Review of John Rawls' Theory of Justice in Penal Mediation as a Settlement for Minor Offenses at Al-Ishlah Male Islamic Boarding School, Malang

This study examines the resolution of minor criminal offenses committed by students at Pondok Pesantren Putra Al-Ishlah, Singosari, Malang, through penal mediation, analyzed within the framework of John Rawls’ theory of justice. Offenses such as petty theft, verbal insults, and minor vandalism are addressed internally through restorative measures rather than formal legal proceedings. Employing a qualitative field research approach, data were collected through interviews with pesantren administrators and teachers, along with the analysis of documented cases from 2020 to 2024. The pesantren applies restorative and educational sanctions, such as Qur’an recitation, performing the call to prayer, or repairing damaged property while engaging offenders, victims, and guardians in a deliberative mediation process. The findings demonstrate that this approach embodies Rawls’ two key principles of justice: the assurance of equal basic liberties and the application of the difference principle in promoting fairness. Penal mediation at the pesantren functions not only as a deterrent to future misconduct but also as a means of reconciliation and moral development, reinforcing community cohesion. This culturally grounded model of restorative justice offers an alternative framework for addressing juvenile misconduct in educational institutions, illustrating the practical integration of moral philosophy, disciplinary methods, and character education in a faith-based setting.

Assessing the impacts of inter-basin water transfer projects on ecosystem services in water source areas: Evidence from the Hanjiang River Basin.

Inter-basin water transfer projects (IBWT) are a key strategy for alleviating regional water shortages. However, studies on the long-term effects of such projects on ecosystem services (ESs) in water source areas, as well as their spatiotemporal evolution, remain insufficient. In particular, the specific impacts of the entire project lifecycle (project initiation, dam heightening, project operation, and ecological restoration) on ESs need further exploration. This study focuses on the Middle Route of the South-to-North Water Diversion Project in China, utilizing multi-source datasets (land use and land cover, meteorological data, soil texture, digital elevation models, normalized difference vegetation index, and net primary productivity), applying the biophysical model method to examine the spatiotemporal variations in ESs across the Hanjiang River Basin over the past three decades, and investigates the impact of IBWT on the ESs of water source areas. The findings reveal: (1) During the project initiation phase (2000-2010), vegetation restoration strategies enhanced soil retention by over 60%, demonstrating that simultaneous project-ecological implementation can mitigate habitat degradation risks. (2) The dam heightening phase (2005-2010) drove spatial reconfiguration of water-energy fluxes, leading to declines in water conservation and carbon sequestration in the midstream region, while enhancing flood mitigation and climate regulation in the reservoir area, unveiling the reshaping mechanisms of dam heightening on ESs supply patterns. (3) The operation phase exhibited significant temporal heterogeneity: initial operation (2010-2015) saw a sharp decline in water conservation (>40%) and soil retention (>60%) due to hydrological disturbances, whereas sustained operation (2015-2020) restored water conservation by nearly 70% and soil retention by over 40% through ecological restoration, alongside a net increase of 14.14% in carbon sequestration, confirming the time-lag compensation effects of restoration measures and the dynamic interplay between ecological restoration and project interventions. This research presents empirical evidence supporting the sustainable management and ecological restoration of IBWT, emphasizing the need to balance spatial water allocation with ecological conservation.

Patterns of plant taxonomic, functional diversity and productivity along space and time in dryland woodlands

Drylands occupy 47% of the world’s terrestrial area and comprise important biodiversity hotspots such as the Mediterranean Basin, where one can find high levels of plant diversity and endemism. At the same time, they provide resources for human populations, being cattle grazing one of the main activities in dryland ecosystems. Mediterranean woodlands and pastures are currently under threat with increasing aridity due to climate change. Aridity, together with human exploitation, pushes these ecosystems towards land degradation, leading to decreased diversity, ecosystem functioning, and economical value. Understanding how plant communities respond to climate in the long-term, as well as climatic fluctuations, is crucial to anticipate the impacts of climate change in these ecosystems and build a knowledge base to design adaptation and restoration measures and promote their resilience. In the western Mediterranean Basin dryland areas are commonly occupied with oak open woodlands. It is an agro-silvo-pastoral system with a savannah-like structure, dominated by oaks with a species-rich understory of pastures and shrubs. In Portugal, this system is called montado, and due to its socio-economic and ecological importance, it is currently monitored within the LTsER montado platform. The herbaceous layer, dominated by annual species, is a major component of this system’s diversity. While these pastures are adapted to dryland climatic conditions, its annual turnover may make these communities quick responders to environmental changes, providing a good model system to study the effects of climate on diversity and ecosystem functioning. In this work, we aim to assess the effects of long-term climate and yearly climatic fluctuations on plant taxonomic and functional diversity and on pasture productivity, as well as the relationship between diversity and productivity. We sampled the understory plant community of 10 holm-oak open woodlands along a spatial aridity gradient in southern Portugal in multiple years, 5-7 times, between 2012 and 2022. A stratified random selection of sites was made, avoiding as much as possible confounding effects, namely from differences in slope, elevation and fire occurrence. The plant community was sampled in spring, at the peak standing biomass, with the point-intercept method along six 20 m transects per site. Pasture productivity was measured by collecting the aerial herbaceous biomass in three 30 cm squares placed randomly in each site. Functional diversity was calculated using mean trait values per species retrieved from online databases. We fit linear mixed-effects models to assess the relationship between long- and short-term climate variables and taxonomic and functional diversity. We further explored the role of diversity on productivity with structure equation modeling. To assess the patterns of compositional changes along space and time, we determined compositional and functional dissimilarity among sites and among years. Preliminary results show that both productivity and species diversity increase with annual precipitation and winter temperature, while long-term aridity does not seem to be a main driver. On the other hand, species compositional changes between years suggests that more arid sites have higher species turnover, and possibly a higher species richness considering both dry and more wet years, while less arid sites are more stable along time. In this presentation, we will further explore these patterns and assess the role of functional traits and functional diversity as a means by which communities adapt to climatic conditions, and how these influence pasture productivity. These findings may then contribute to a discussion on the projections on future scenarios for these ecosystems and which adaptation and restoration measures may be adopted to promote its sustainability and resilience.

Can commercially available UAVs aid practitioners in long-term monitoring of European grasslands? Case study of a sandy steppe eLTER site

Large-scale habitat degradation and destruction have been marked as the most important causes of biodiversity loss in the last 100 years. To combat this problem, proper monitoring and, if deemed necessary, restoration measures, must be taken. The economic value of restoration actions in Europe alone has exceeded one billion euros but despite this fact, many projects have failed to restore ecosystem functions of targeted areas. The lack of proper monitoring and steering of restoration actions, i.e. translating scientific findings into practical, easy-to-do actions for practitioners is probably one of the causes for this failure. „Sunčani salaš“ eLTER site (https://deims.org/5f5c850d-0036-49ac-97be-f9b314898607) was established in 2021 to monitor the progress of the revitalization of this former arable land parcel into the original sandy grassland habitat. The site is located within the Subotica sands protected landscape in northern Serbia, along the Hungarian border. Prior to the field campaign, we divided the study area into zones based on visual differences inferred from drone imagery. We performed a classical plot-based botanical survey and used hand-held GPS to determine the spatial distribution of finely differentiated vegetation types. Based on fieldwork data, we classified Sunčani salaš vegetation into appropriate EUNIS (European nature information system) classes and assessed its conservation status. These classes were then translated into site-specific key habitat types for site management purposes. In parallel, we used a commercially available and easy to operate DJI Inspire UAV (unmanned aerial vehicle), equipped with a Zenmuse X3 RGB camera to assess whether the commercially available RGB sensor and a relatively high flight altitude (100m) of the UAV have discriminative capacity to aid site managers by mapping identified steppe development stages. Both campaigns were performed monthly throughout the vegetative season (April-September). Based on the presence of characteristic species, we identified four main habitat types according to the EUNIS classification: Pannonic loess steppe grassland (E1.2C1 and E1.2C2), Pannonic sandy steppes (E1.2F4), Broadleaved deciduous woodland (G1.4) and Bare tilled land (I1.51). These were then translated into site-specific categories, termed: Young steppe I, Young steppe II, Forest steppe and Fallow land, respectively, which were all quantified across the habitat-specific zones. For image classification purposes, these categories were translated into categories: Class C0 or “Steppe”, encompassing Young steppe I and II, Class C1 or “Shrubs”, Class C2 or “Forest–Steppe”, Class C3 or “Bare/fallow land”. Of all detected habitat types, Pannonic loess steppe grassland (E1.2C1 and E1.2C2) and Pannonic sandy steppes (E1.2F4) are of conservation importance and are listed in the Annex I of the Habitat Directive. UAV vegetation maps show that the estimated extent of steppe habitat, class C0, dominates in most of the identified observation zones. In centrally positioned zones, steppe cover varies between 58% and 68% between the zones. Shrub cover across these zones is low (<5%), while the cover of bare soil is even lower, and stays under 2%. The extent of the western-marginal zone characterizes the presence of steppe cover C0 with high percentages of shrubs C1 (47% and 18%, respectively). The extent of southern-marginal zone characterizes the presence of forest C2 area range of approximately 60%. Both these zones are characterized by a significant percentage of pixels with a low confidence score. We consider 60% of the open habitat to be characterized by young steppe vegetation. According to the results of the UAV mapping, the extent of the young steppe is the largest in centrally positioned zones, where it reaches almost 70%. Results of the UAV campaign show that the proposed flight characteristics allow for more generalized classification of habitat types, but fine scale classification was not possible (e.g., it was not possible to distinguish Pannonic loess steppe from Pannonic sandy steppe). For this, higher spectral resolutions instead of RGB images would ease the classification problem and probably enable solitary UAV acquisitions, instead of repeated ones. Nevertheless, protected area managers can benefit from the results of the study, offering cost-effective and efficient tool for assessing habitat diversity and detecting broader ecological trends within protected areas.

Restoration of a Degraded Raised Bog: Implications for Carbon Flux and Hydrological Recovery

Peatlands are globally important carbon stores that provide a range of ecological, climatic, and socio-economic benefits. However, large-scale peat extraction, drainage for agriculture, and conversion to forestry have changed many peatlands from long-term carbon sinks into carbon sources. While some of the best remaining examples of intact raised bogs in Western Europe occur on the island of Ireland, a large majority are degraded. In recent years, Ireland has undertaken an extensive programme of peatland restoration, with works carried out across approximately 30,000 ha of drained raised bog to enhance biodiversity and contribute towards international greenhouse gas reduction commitments. Understanding the impacts of such restoration efforts on peatland hydrology, carbon dynamics, and biodiversity is essential to ensure that measures are effective and achieving the outcomes required. This study presents data from the restoration of a drained area of All Saints Bog, a Natura 2000 raised bog site. Restoration measures included ditch blocking, re-profiling degraded areas, and contour bund construction with adjustable drains to regulate the hydrology. The effects of restoration are evaluated using a combination of eddy covariance, chamber measurements, water level monitoring, and remote sensing over a four-year period from 2021 to 2024. This period incorporated one year of pre-restoration, two years of active restoration, and one year of post-restoration. Hydrologically, restoration efforts appear to have been successful, with widespread rewetting across much of the site, recreating the conditions for active peat formation and the slow recovery of Sphagnum moss locally present. However, we found an approximate two-fold increase in net carbon fluxes between pre- and post-restoration, rising from 1.14 t CO₂-C ha⁻¹ y⁻¹ in 2021 to 2.37 t CO₂-C ha⁻¹ y⁻¹ in 2024. Furthermore, chamber-based spatial measurements showed a higher emission contribution from contour bunds compared to bare peat. Consequently, a programme of Sphagnum translocation and inoculation is planned for 2025 to hasten vegetation recovery. This long-term investigation will deepen our understanding of effective restoration efforts, which will provide insights to guide the development of future restoration strategies.

Research Progress on the Impact of Land Use and Climate Change on Gully Runoff in Yan' an City

The ArcSWAT model provides an effective tool for quantifying the responses of gully runoff in Yan'an City to land use and climate change. Returning farmland to forest and reclaiming land from gullies have significantly reduced soil erosion through vegetation restoration and engineering measures. However, climate change may offset some of the ecological benefits. The vegetation index of Yan'an City from 2000 to 2019 ranged from 0.54 to 0.75. In terms of time distribution, it showed a significant upward trend, with an overall upward rate of 0.095/(10a). From 2000 to 2019, 79.83% of the regional vegetation in Yan'an City showed an improving trend, mainly distributed in the loess ridges and gully areas in the north and east of Yan'an City. The degraded areas accounted for 0.34% of Yan'an City, mainly distributed in the urban area of Yan'an City and the suburban areas of county-level cities, presenting a point-like and strip-like distribution. From 2000 to 2012, human activities were the dominant factor determining the status of vegetation index. From 2013 to 2019, the main factors affecting the growth of vegetation in Yan'an were water and heat conditions. In the future, strategies for land use optimization, engineering maintenance and climate adaptability need to be comprehensively considered to achieve the coordinated goal of ecological protection and sustainable utilization of water resources.