Motivations and experiences in managing rare semi-natural biotopes: A case from Finland

Traditional rural biotopes (TRBs) are semi-natural farmland habitats of high nature value formed through traditional agricultural activities, such as grazing and fodder collection. The aims of this study were to 1) understand manager motivations for managing TRBs and their attitudes toward TRB conservation and 2) determine whether TRB managers differ in attitude, motivation for management, experiences or area under management depending on whether their managed TRBs are integrated or separate from their farming systems. Farmers and landowners (N = 27) managing TRBs in coastal Finland were interviewed. In addition to quantitative analysis, responses were mapped with DebateGraph for inductive analysis to discern patterns amongst the two groups and to explore a series of questions related to motivations. Although area under management and farming strategy varied amongst managers, they all had a positive view toward the existential value of TRBs. A small group of “TRB entrepreneurs”, whose farming strategy was based on grazing primarily rented TRBs was identified. Their farming income was dependent upon direct sale of meat and participation in agri-environmental scheme for TRB management. Desire for open landscape was the primary motivation for managing TRBs and strongly outweighed extrinsic values such as fodder production and AES. Higher TRB: farm ratio was associated with more positive attitude toward TRBs and TRB conservation. No difference was found in motivation for management between the two farmer groups. Although motivations were similar, improved and tailored extension services for TRB managers could promote their conservation management.     

Ecosystem services–biodiversity relationships depend on land use type in floodplain agroecosystems

Managing agricultural floodplains to meet present and future human requirements without jeopardizing biodiversity conservation is a challenge for land use planners and ecologists. This paper aims to disentangle the relationships between ecosystem services and biodiversity in multifunctional landscapes, such as floodplain agroecosystems, by disaggregating their values across land use types. We measured eight ecosystem services (gas regulation, soil formation, nutrient regulation, habitat provision, food provision, raw materials production, education, and recreation) and six plant diversity indexes (richness, abundance, and true diversity for both plant species and growth forms) in seven land use types identified in the floodplain of the River Piedra (Spain). We observed that all land use types provided services to some extent, but each one was better at providing certain services. Natural or semi-natural habitats provided more services and hosted greater diversity than cultivated land use types. In addition, five diversity indexes were strongly correlated to at least three ecosystem services each one. Habitat provision and education were the ecosystem services positively correlating to most diversity indexes, whereas food provision was negatively correlated to all diversity indexes. Moreover, analyzing the interactions between ecosystem services and biodiversity across land use types, we observed that land use type was the controlling factor regarding the sign and significance of the interaction. The results of this study suggest that, in floodplains agroecosystems, a mosaic landscape of different land use types helps support ecosystem services and contributes to maintaining biodiversity while using local resources. Such land use policies might manage agricultural floodplains at the landscape scale while still being able to accommodate specific measures for each land use type. Moreover, riparian forests should be preserved and restored across the floodplain as they are hot spots for biodiversity and ecosystem services provision.     

Anthropogenic and topographic correlates of natural vegetation cover within agricultural landscape mosaics in Turkey

Natural vegetation enhances the value of agricultural landscapes for people and wildlife. However, the role of anthropogenic versus topographic factors in driving the extent of natural vegetation cover within agricultural lands at large spatial scales remains unexplored. I assessed the influence of anthropogenic and topographic variables on the extent of agricultural mosaics with high natural vegetation cover in the country of Turkey where a large extent of natural and semi-natural vegetation is maintained by traditional agriculture. GIS layers depicting human land use, elevation, slope, roads and population data were obtained and summarized at two spatial scales, within provinces and for 100 km² grid cells covering the country’s entire agricultural land area. Average farm size was also obtained at province level. Hierarchical Partitioning was conducted to determine the independent effect of anthropogenic and topographic variables on the variation in agriculture with high natural vegetation. Slope had the largest independent effect on the variation in the proportion of agricultural mosaic with high natural vegetation cover. The extent of agricultural and settlement area also explained much of the variation in natural vegetation across both grid cells and provinces. The proportion of natural vegetation increased as human population and road density decreased across grid cells and as average farm size decreased across provinces. These results suggest that while topography is the primary driver of natural vegetation cover within agricultural mosaics in Turkey, the pressures associated with urban development and agricultural industrialization may also influence the cultural and wildlife value of agricultural landscapes.     

农田中非耕作生境对耕地多功能影响研究

[目的]从耕地的生产功能、生态服务功能、社会保障功能和景观文化功能角度出发,探讨耕地系统中非耕作生境对这些功能的影响的方向和程度,以期为今后耕地系统中生态网络优化以及绿色土地整治提供参考。[方法]文章运用3S技术法提取非耕作生境数据,按照非耕作生境比例由低到高在辽宁省沈阳市沈北新区水田区选择调查点。运用层次分析法计算调查点耕地多功能值,运用统计分析法研究非耕作生境比例变化对耕地生产、社会保障、生态服务及景观文化功能的影响。[结果](1)当非耕作生境比例低于22.54%和17.16%时,随着非耕作生境比例增加耕地生产、社会保障功能呈增强趋势;当其比例大于22.54%时和17.16%,随着非耕作生境比例增加耕地生产、社会保障功能呈减弱趋势。(2)随着非耕作生境面积比增加,耕地生态服务和景观文化功能均呈增强趋势。(3)当非耕作生境面积比低于22.54%时,随着非耕作生境比例增加耕地多功能呈增强趋势;当其比例大于22.54%时,随着非耕作生境比例增加耕地多功能呈减弱趋势。[结论]非耕作生境比例对耕地生产、社会保障功能影响均呈现先增后减趋势,对耕地生态服务功能、耕地景观文化功能的影响趋势均呈现递增趋势,对耕地多功能综合影响呈先增后减趋势。     

The retention ability of the agricultural landscape in the emergency planning zone of the Temelín nuclear power plant and its changes since the 19th century

Drainage and loss of wetland sites is a major problem of the agricultural landscape, as it reduces the landscape’s ability to retain water, nutrients, matter, and minimize erosion. With this in mind, the issue of the ability of wet sites to retain radionuclides and contaminated water in the case of a radiation accident was studied. In 2013, field research examined the occurrence of wetland retention sites in the emergency planning zone (EPZ) of the Temelín nuclear power plant (NPP; Czech Republic). As data sources, wetland biotopes (European network Natura 2000) were considered; in addition, retention features were field mapped, i.e. landscape elements of a wetland nature not normally considered nationally significant for conservation. Within the emergency zone, 2854.7 ha of wetland biotopes were registered and 318.9 ha retention features mapped. Density of retention sites (in ha/km²) per cadastre (local administrative units) was used to represent their spatial distribution within the zone. For an assessment of possible revitalization measures, leading to an increase in the landscape’s retention ability, spatial changes in the area of retention sites between 2013 and the mid-19th century, a period before extensive drainage of landscape occurred and a simplification of its structure, were mapped. Historic land maps (The Imperial Obligatory Imprints of the Stable Cadastre) were used as a basis of information on the occurrence and area of fens and wet meadows (4771.5 ha).For spatial comparisons of drained and undrained landscape in the past and present, the density of retention sites per cadastre was calculated. In the mid-19th century, 80% of cadastres had a density of retention sites exceeded 5 ha/km²; in 2013 only 40% of cadastres achieved this. In the most part, drained areas of the zone belong to the central part (around the power plant), as well as the EPZ’s eastern and south-eastern regions. From the density maps of retention sites, as well as from the stable cadastre imprints, it is possible to identify areas and retention features suitable for wetland restoration, thus leading to an increase in the retention capacity of the landscape in terms of water and radionuclide retention. Suggestions as to how to restore and turn retention features into semi-natural wetlands, as well as integrating small wetlands into an agriculture landscape are outlined.     

Trade-offs of European agricultural abandonment

Agricultural land abandonment is a policy challenge, especially for areas with unfavorable conditions for agriculture and remote and mountainous areas. Agricultural abandonment is an important land use process in many world regions and one of the dominant land use change processes in Europe. Previous studies have shown that abandonment can have both positive and negative effects on several environmental processes, influenced by location and scale. Preferred policies and management of these areas are debated given concerns for the loss of (traditional) agricultural landscapes and potential impacts on biodiversity and ecosystem services. We present a European-scale impact assessment of the possible effects of agricultural abandonment, based on eight indicators that are on the forefront of the agricultural abandonment debate. Using a multi-scale modelling approach, we expect between 71.277 and 211.814 km² of agricultural abandonment in 2040. Impacts on the indicators and trade-offs between the impacts are spatially variable. A typology of typical trade-off bundles at a 1 km² resolution resulted in four typical trade-off clusters. All clusters identified are characterized by a loss of agriculture-related values, such as agro-biodiversity and cultural heritage. For two clusters, this was accompanied by positive effects on indicators such as carbon sequestration, nature recreation and mammal habitat suitability. Overall, our results indicate that location and scale are key to assess the trade-offs originating from agricultural abandonment in Europe. Identification of typical trade-offs bundles can help to distinguish potential desirable outcomes of agricultural abandonment and assist in targeting measures to areas that face similar management challenges.     

Integrated landscape initiatives in Europe: Multi-sector collaboration in multi-functional landscapes

Landscapes are linked to human well-being in a multitude of ways, some of which are challenged by global market forces and traditional management approaches. In response to this situation there has been a rise in local initiatives to sustain the values of landscape. The aim of this paper is to provide a systematic analysis of the spectrum of these initiatives in Europe in terms of patterns of organisation, participants, resources, problems, and landscape values addressed. This review collects examples of integrated landscape initiatives from all over Europe through systematic internet key word searches and canvassing of European umbrella organisations; followed by an online survey of representatives from the identified initiatives (n = 71). Our results show that the most relevant characteristics of integrated landscape initiatives in Europe are: a holistic approach to landscape management (acting in multifunctional landscapes and combining different objectives), the involvement and coordination of different sectors and stakeholders at many levels, and the role as agents of awareness raising and learning hubs. Integrated landscape initiatives mainly depend on impulses of local civil society. Identified barriers to their work include a lack of funding and institutional support. Therefore, political and societal action is needed to increase their effectiveness.     

基于玉米种植的农地规模对化肥减量增效的影响分析

目的 探讨农地规模对化肥施用强度和化肥利用效率的影响。方法 文章基于1 135个玉米种植户的调查数据,运用普通最小二乘法、工具变量法以及分位数回归法分析农地规模对化肥施用强度和化肥利用效率的影响,并利用2003—2018年20个玉米主产省份面板数据进行检验,最后探索并分析农地规模变化的驱动因素及其对化肥使用的短期和长期影响。结果 （1）农地规模对化肥施用强度具有显著的负向影响,农地规模每扩大1%,化肥施用强度随之降低0.1%～0.2%,且农地规模对化肥施用强度较低的农户的影响相对较大;（2）农地规模对化肥利用效率具有显著的正向影响,农地规模每扩大1%,化肥利用效率随之提高0.2%～0.3%,且农地规模对化肥利用效率较低的农户的影响相对较大。结论 鼓励适度扩大农地规模,有助于降低化肥施用强度,提高化肥利用效率;通过推广农业生产托管服务和联耕联种,可以有效解决地块狭小、土地分散等问题,促进化肥减量增效。     

The role of wildlife-associated recreation in private land use and conservation: Providing the missing baseline

Successfully integrating human activities with ecosystem conservation forms the foundation of sustainability and is key to maintaining biological diversity. This is especially important in privately-owned lands in the U.S., which harbor high levels of biodiversity yet are often vulnerable to habitat degradation and loss. This study analyzes recreation as a sustainable use on private property, focusing on wildlife-associated recreation, defined here as fishing, hunting and wildlife watching. Eighteen national surveys implemented by three U.S. government agencies spanning 1999–2013 were analyzed to provide baseline information and an assessment of the conservation impact of recreation. Results show that approximately 440.1 million acres of private land, ∼22% of the contiguous land area of the U.S., are either leased or owned for wildlife-associated recreation. Land utilized for hunting accounts for 81% of that total. Approximately 33% of private forestland, 18% of private grazing land and 4% of private cropland is used to earn revenue from recreational activities. Annual spending for wildlife-associated recreation on private land is estimated at $814 million in day-use fees, $1.48 billion for long-term leases, and $14.8 billion to own land primarily for recreation (2011 dollars). Hunters own or lease properties of larger size classes than anglers or wildlife-watchers, indicating that hunting may provide a greater economic incentive for maintaining large unfragmented properties that provide a variety of conservation benefits. On grazing and cropland, landowners who earn income from recreation are significantly more likely to participate in government conservation programs (p < 0.001) and to pay for private conservation practices (p = 0.08). This provides support that recreation incentivizes conservation at higher rates than agricultural activities alone. Three policy measures that could further enhance conservation benefits of recreation are discussed.     

Profit efficiency and habitat biodiversity: The case of upland livestock farmers in Ireland

This study evaluates the private economic value of biodiversity using original farm habitat data and farm household survey data from livestock farms in the hills and uplands of Ireland. Profit efficiency and biodiversity efficiency are estimated using a stochastic translog production frontier model. Results indicate that biodiversity plays a beneficial role in farm profitability but the effect is non-linear. Stocking rate and the perimeter to area ratio are found to have a negative effect on biodiversity while the number of plots per farm has a positive effect. Biodiversity efficiency is influenced by the number of livestock, habitat quality, spatial habitat patterns and arrangement, perimeter to area ratio, the number of plots, profit efficiency and farmer's education and age.     

A novel approach for assessing the contribution of agricultural systems to the sustainable development of regions with multi-scale indicators: Application to Guadeloupe

The assessment of agriculture at a regional scale is necessary to better guide regional agricultural planning. To improve the contribution of agriculture to sustainable regional development, assessments must take account of the locations and diversity of cropping systems. We have therefore developed a method based on a set of multi-scale indicators to assess the contribution of agriculture to the sustainable development of regions, and its evolution over time. This method can identify: i) sustainability issues, ii) relevant indicators that will provide information on impacts at the field scale, iii) a method to aggregate indicators, iv) data on cropping systems, and v) a database containing spatial units to analyse the whole region. Application of this method to Guadeloupe (2004–2010) enabled the definition of ten issues and 16 indicators, with three procedures to aggregate information from 36 cropping systems allocated to 11,908 fields between 2004 and 2010. Economic, social and environmental sustainability was poor in 2004, with high dependency on subsidies (47.3 M€ yr⁻¹), low agricultural added value (48.5 M€ yr⁻¹), low employment (only 1799 workers), significant risks of crop contamination and pressure on water quality. The total value of subsidies and the risks of river pollution tended to decrease between 2004 and 2010 because of a reduction in intensive banana cropping systems. In parallel, we were able to see that sugar cane, the most widespread crop in Guadeloupe, made only a small contribution to employment and food self-sufficiency during the studied period. The spatial representation revealed that improvements have been seen in southern Guadeloupe due to reductions in banana cultivation. This method was therefore helpful in identifying the most critical agricultural development issues and helping to highlight areas where relevant agricultural land use policies could be formulated.     

Changes of urbanised landscape identified and assessed by the Urban Atlas data: Case study of Prague and Bratislava

Identification, analysis and assessment of changes in the urbanised landscape, one of the most conspicuous transforming parts of earth surfaces, has become the topic of numerous research projects. However, there is still a lack of compatible data suitable for the generation of topical information about the urbanised landscape and its changes at different scales. An important contribution in this sense is the Urban Atlas (UA) Project pursued under the GMES (Global Monitoring for Environment and Security)/Copernicus Land (GIO land) Programme auspiced by the European Commission. The aim of this study is to document, examine and compare land use/cover change (LUCC) of the LUZs (Large Urban Zones) of Bratislava and Prague in 2006–2012 by means of the UA data and show how these changes are captured in official statistical data. Results confirmed the present trends in modern industrial cities dominating by transforming the agricultural land into residential and industrial areas. Dispersion of the urban fabric into locations previously used for agriculture was mostly widespread in LUZ Prague (1,718 ha). This trend has also been partially confirmed by the change of agricultural land in favour of construction sites, the most pronounced one in LUZ Bratislava (580 ha). Assessment and comparisons of LUCC changes of LUZs Bratislava and Prague proved that combining the UA data and official statistical data has a great potential for insight into the dynamics of the urbanised landscape of Europe.     

The influence of farming styles on the management of the Iveragh uplands,southwest Ireland

The links between farming practices and biodiversity is well established. This paper develops a farm typology based on eighty hill sheep farmers on the biodiversity rich uplands of the Iveragh peninsula, SW Ireland. Despite outward appearances considerable diversity was found to exist within their livelihood strategies and farming styles. Using a combination of a detailed farm management survey and grazing state evaluation, the farms were classified into four distinct types – environmental stewards, support optimisers, traditionalists and production maximisers. Our results suggest that knowledge of the different farming styles is critical for more effective biodiversity conservation and for the design of more targeted agricultural and agri-environment policies. We suggest the need to move away from the ‘one size fits all’ approach, which on the Iveragh currently rewards the most overgrazed farms with the highest agri-environment payments.     

Diversity of Mexican diets and agricultural systems and their impact on the land requirements for food

Mexico is a megadiverse country with large agroclimatic diversity and socioeconomic inequality. These two factors result in strong diversity in diets and agricultural systems within the country. In this paper, we assess the impact of Mexican diets and production systems on the per capita land requirements for food. We estimate it for the extremes: from the very basic diet of the poorest share of the population to the affluent diet of the richest share of the population; and for extensive and intensive systems, with irrigation as the indicator of the intensity of the system. We show that the basic diet produced in rainfed systems requires 1620 m²/cap/yr and produced in irrigate systems requires 700 m²/cap/yr. The affluent diet produced in rainfed systems requires 2540 m²/cap/yr and produced in irrigated systems requires 1230 m²/cap/yr. Hence, differences in diets result in a requirement for 80% or 60% more land for an affluent diet; and differences in production systems result in more than twice the amount of land for extensive than for intensive systems. In 2050, it would be possible to feed the entire population with affluent diets only if all the present area of crop land had the productivity of intensive systems. In contrast, it would be possible to feed all people with a basic diet even if all present crop land area had only the productivity of extensive systems.     

Impact of land ownership and altitude on biodiversity evaluated by indicators at the landscape level in Central Italy

This study analyzed the ecological role of agroecosystems in maintaining landscape diversity and sustainability using selected indicators and indexes in Central Italy. The study focuses on analysing ecological systems at the landscape level to assess the environmental sustainability in terms of land cover composition and diversity. We used geographical information systems, landscape fragmentation and heterogeneity to determine the ecotone types and patch characteristics and gather useful information based on ownership (private and public areas) and altitude (plain, hilly, and mountain areas).The results showed that private areas had major landscape heterogeneity, which increased both the presence of ecotones and land cover diversification. There was a higher level of landscape heterogeneity and land cover diversification in plain and hilly areas, where agriculture was mostly present. There was also an increase of margins and/or hedgerows. Publicly owned areas generally had permanent land cover types, such as woods and pastures with low human influence, that induce biodiversity conservation. Privately owned areas were mainly characterized by cultivated land with high human influence that requires careful biodiversity management. However, most important ecological structures, such as ecotones, occurred where human land use intensity was at its highest level (plain-hilly areas and private ownership areas), and this could help to maintain and increase the biodiversity of the agricultural landscape. In Central Italy, there is an acceptable level of landscape sustainability achieved by integrating both private and public types of management.     

Trends in land ownership fragmentation during the last 230 years in Czechia,and a projection of future developments

A high level of fragmentation of farmland ownership is an important underlying cause of land degradation and, at the same time, an obstacle to sustainable land management. This study makes the first-ever analysis of long-term trends in the rate of fragmentation. Our study covers the period from the earliest stages of the current form of ownership patterns at the end of the 18th century until the present day. On the basis of significant predictors that have been identified (initial fragmentation, population growth, historical development of inheritance laws and of the land market, natural soil fertility and landscape type), we go on to project probable developments for the period from 2016 to 2045. A total of 102,984 land parcels in 56 cadastral units in the territory of Czechia have been analysed on the basis of data from four years (1785, 1840, 1950, 2015). Our study considers the development of two basic indicators of fragmentation – Mean Parcel Size and Number of Owners per 100 ha. The Mean Parcel Size has decreased over a period of 230 years from 1.08 ha to 0.64 ha, at a mean rate of −0.26% year⁻¹. During the same period, the Number of Owners per 100 ha has risen from 17.50 to 79.66, at a mean rate of 0.61% year⁻¹. A detailed analysis of the development trends confirms significant spatial variability and also time variability of the rates of the two indicators. The analysis also shows their mutual complementarity: growth in the rate of one of the indicators is usually accompanied by a drop in the other. The general trend that we project for the territory of Czechia in the upcoming 30 years is that there will be further diminution of the physical size of land parcels (continuing fragmentation of land parcels) accompanied by a reduction in the Number of Owners (defragmentation of land ownership).     

Progressive fragmentation of a traditional Mediterranean landscape by hazelnut plantations: The impact of CAP over time in the Langhe region (NW Italy)

Land use change is strongly modifying the traditional landscape of hilly productive Mediterranean sites. An example of these circumstances is the Langhe region (Piemonte, NW Italy), where woody plantations such as vineyards and orchards have been cultivated on hillslopes for centuries. In this paper we assess landscape changes occurred in the Diano study area (2651 ha) in the 1954–2000 period and we ascertain land use transition paths and rates of this rural ecosystem. Land use mapping obtained from object-oriented analysis of aerial photographs was used to quantify land use changes between 1954 and 2000. To examine the spatio-temporal patterns of land use change over time, a set of spatial statistics capturing different dimensions of landscape change was identified. An increase of landscape heterogeneity from 1954 to the present was observed due to the expansion of orchards and the fragmentation of field crops. A significant portion (55%) of current orchards surface is represented by former field crops, 24% by vineyards and 15% by forests. The strong expansion of hazelnut orchards concurred to the fragmentation of traditional rural landscape was dominated by vineyards, field crops and forests. Hazelnut orchards expansion was mainly located in places where grapes cultivation was less remunerative. A further expansion of hazelnut in the area should be planned, discussed and carefully monitored through change detection studies in order to avoid potential unsustainable use of the land.     

Africa's changing farm size distribution patterns: the rise of medium‐scale farms

This study assesses changes over the past decade in the farm size distributions of Ghana, Kenya, Tanzania, and Zambia, drawing on two or more waves of nationally representative population‐based and/or area‐based surveys. Analysis indicates that much of Sub‐Saharan Africa is experiencing major changes in farm land ownership patterns. Among all farms below 100 hectares in size, the share of land on small‐scale holdings under five hectares has declined except in Kenya. Medium‐scale farms (defined here as farm holdings between 5 and 100 hectares) account for a rising share of total farmland, especially in the 10–100 hectare range where the number of these farms is growing especially rapidly. Medium‐scale farms control roughly 20% of total farmland in Kenya, 32% in Ghana, 39% in Tanzania, and over 50% in Zambia. The numbers of such farms are also growing very rapidly, except in Kenya. We also conducted detailed life history surveys of medium‐scale farmers in each of these four countries and found that the rapid rise of medium‐scale holdings in most cases reflects increased interest in land by urban‐based professionals or influential rural people. About half of these farmers obtained their land later in life, financed by nonfarm income. The rise of medium‐scale farms is affecting the region in diverse ways that are difficult to generalize. Many such farms are a source of dynamism, technical change, and commercialization of African agriculture. However, medium‐scale land acquisitions may exacerbate land scarcity in rural areas and constrain the rate of growth in the number of small‐scale farm holdings. Medium‐scale farmers tend to dominate farm lobby groups and influence agricultural policies and public expenditures to agriculture in their favor. Nationally representative Demographic and Health Survey (DHS) data from six countries (Ghana, Kenya, Malawi, Rwanda, Tanzania, and Zambia) show that urban households own 5–35% of total agricultural land and that this share is rising in all countries where DHS surveys were repeated. This suggests a new and hitherto unrecognized channel by which medium‐scale farmers may be altering the strength and location of agricultural growth and employment multipliers between rural and urban areas. Given current trends, medium‐scale farms are likely to soon become the dominant scale of farming in many African countries.     

Forest fragmentation reduced carbon storage in a moist tropical forest in Bangladesh: Implications for policy development

Forest fragmentation is continued to be widespread in the tropics resulting in reduced ecosystem services including carbon storage. However, the effect of forest fragmentation is not considered in the current carbon policy. We investigated the effect of forest fragmentation on tree biomass carbon and soil organic carbon (SOC) storage in a moist tropical forest in Bangladesh. Above and below-ground tree biomass carbon were calculated by using widely accepted allometric equations and SOC was measured by sampling soils up to 10 cm depth and analyzing them in a soil laboratory. Results showed that carbon storage in tree biomass was significantly lower in fragmented forests (16.3 ± 1.37 t C ha⁻¹) than in contiguous forests (31.21 ± 2.75 t C ha⁻¹) (p < 0.001). Likewise, a significantly lower SOC was contained in the soils of fragmented forests (17.26 ± 0.83 t C ha⁻¹) than in contiguous forests (21.62 ± 0.78 t C ha⁻¹) (p < 0.001). Thus a total of 36% less carbon retained in tree biomass and soils in fragmented forests than in contiguous forests. Backward multiple linear regression analysis revealed tree density, tree height, tree DBH, height-diameter ratio (H/D) and tree species richness as influential factors of carbon variation in fragmented forests. All these structural parameters except tree species richness were significantly lower in fragmented forests, were positively associated with carbon storage and explained together 69% of the carbon storage variation. These findings suggest that the altered stand structure and tree allometry likely caused reduced carbon storage in fragmented forests and highlight the importance of landscape scale management intervention in the tropics. Here, we provided with the evidence of strong negative impact of forest fragmentation on carbon storage and argue that this effect should be in consideration which is currently overlooked in existing carbon accounting systems for tropical forests.