Search Results (68)

Chestnut is an important economic plant for ecology and farmers in mountainous areas in China. We conducted surveys and experiments to assess the economic value of the pollination service provided by insect pollinators for chestnuts via the Toolkit for Ecosystem Service Site-based Assessment (TESSA) in Bapeng Village, Wangmo County, Guizhou Province of China. We applied three methods presented by TESSA, the desk-based method, the field survey method, and the exclusion experiment, for the assessment. The resulting pollination values for the three methods are (1) CNY 3712.5∙ha⁻¹∙yr⁻¹ in the assessment site and an average of CNY 1386∙ha⁻¹∙yr⁻¹ with buffer zones included for the desk-based method; (2) CNY 3712.5∙ha⁻¹∙yr⁻¹ in the assessment site and an average of CNY 1124∙ha⁻¹∙yr⁻¹ with buffer zones included for the field survey method; and (3) CNY 4158∙ha⁻¹∙yr⁻¹ in the assessment site and an average of CNY 1485∙ha⁻¹∙yr⁻¹ with buffer zones included for the exclusion experiment method. The total value of chestnut pollination of the Bapeng Village ranges from CNY 311,943 yr⁻¹ to CNY 404,663 yr⁻¹. The chestnut pollination of the village is substantially insufficient. This could be the result of the decrease in diversity and uneven distribution of insect pollinators which, per se, are caused by the lack of larval hosts for those pollinators. Full article

The relationship between insect diversity and crop production has been of continuous scientific interest. Understanding insect community dynamics using various sampling and monitoring methods at different crop phenology stages is crucial for enhancing pest management and ecosystem service functioning. The present study assessed the influence of four trap types (Blue, Yellow, White, and Malaise) applied at four tomato developmental stages (start of planting, flowering, flowering fruit development and harvest) on insect diversity in northeastern Tunisian open-field conditions. A total of 1771 insect individuals belonging to seven orders and 31 families were trapped, with the order Hymenoptera being the most common in the sampled plots, which was represented by 25 families. Trap type exerted a strong effect on both abundance and alpha diversity parameters. Yellow pan traps showed the highest diversity, with family richness (S) ranging from 1 to 16, Shannon diversity (H) reaching 2.54, Simpson (Is) diversity ranging from 0.72 to 0.90 and Pielou’s evenness (J) ranging from 0.83 to 0.98. Blue and white traps displayed intermediate diversity (Blue: S = 6 and H = 1.7; White: S = 7 and H = 1.6), while Malaise traps captured the least diverse assemblages (S = 4, H = 1.2 and Is = 0.65). These differences were highly significant (p < 0.05). Phenological stage significantly structured Hymenoptera diversity. Richness peaked at the start of planting (S = 1–16 and H up to 2.54) and declined sharply at harvest (S = 1–6). Pollinator families (Apidae, Halictidae, Megachilidae) were the most abundant during flowering, whereas parasitoid families (Braconidae, Eulophidae) dominated during the fruit development stage. Beta diversity analyses (NMDS, stress = 0.25) and PERMANOVA showed that trap type and phenological stage jointly explained 15.5% of the variation in community composition (R² = 0.155, p = 0.014). Although a strong taxonomic overlap among traps was observed, Indicator Value analysis revealed significant trap-specific associations, including the family Andrenidae with Blue traps and the family Scoliidae with White and Yellow traps. Overall, the results of the present study demonstrate that both trap type and crop phenology significantly influence insect population diversity. A multi-trap sampling strategy combining colored pan traps and Malaise traps could be recommended to accurately characterize insect communities and associated ecosystem services in Mediterranean open-field tomato systems. Full article

Land maxing in cultivated ecosystems can improve upon other agroecological approaches because in this approach social, economic and ecological benefits are maximized within the available land, in part through the careful selection of plant species with specific benefits, e.g., biodiversity conservation, provision of ecological services, diversifying and improving farmer incomes. In this approach, plant species selected for improving farmer incomes are those providing non-timber marketable products, and plant species selected for biodiversity conservation and provision of ecological services can be identified quantitatively via ecological network theory. Here, we demonstrate using ecological network theory to identify (a) farm management practices associated with ecological network indices, and (b) key plant species that farmers can plant to maximize the potential for their land to support bees and pollination services. In this study we quantified bee-plant interaction networks within 10 agroforests, and compared results between the entire bee community and the subsetted stingless bee community. Bee abundance increased with flowering plant richness, explaining 9% of the variance (R² = 0.09; β = 0.05, SE = 0.03). Diverse agroforests with higher numbers of tree species supported less connected (R² = 0.67; β = −0.08, SE = 0.02), less nested (R² = 0.53; β = −0.05, SE = 0.01), and more specialized (R² = 0.63; β = 0.07, SE = 0.02) and modular (R² = 0.37; β = 0.05, SE = 0.02) bee-plant networks. Some key plant species with the strongest impacts on network structure and stability were shared between the entire bee-plant and the stingless bee-plant networks. We recommend that farmers plant the species highlighted in this study to maximize the value of their diverse agroforests to support bee communities and pollination services. Full article

Apis mellifera honey bees are keystone species for agriculture and global biodiversity, yet their populations are increasingly affected by multiple stressors, including the microsporidian parasite Nosema ceranae. Early and accurate detection of this pathogen is critical to prevent colony losses and sustain pollination services. This study compares qPCR and ddPCR for detecting N. ceranae in bees and hive debris. qPCR is suitable for routine screening, whereas ddPCR offers higher sensitivity and precise quantification. The high diagnostic concordance between the two assays in bee samples, coupled with ddPCR’s enhanced detection capability in debris, underscores their complementary value in apicultural monitoring. This study provides the first experimental comparison between qPCR and ddPCR applied to matched field samples of bees and hive debris, establishing a sensitive and practical diagnostic framework for Nosema ceranae surveillance. The findings support improved diagnostic accuracy and early detection in apicultural health programs. Full article

Pollinating insects are the most important pollinators in nature; they pollinate vegetables, fruits, oil crops, and wild plants, so that crop yields can be increased, wild plants can live and reproduce, and human food security and ecosystem stability are maintained. To identify the pollination network of plants–insects and the pollination service value in Hanzhong City, the methods of random net capture and transect counting in field work were used. The agricultural statistical data from Hanzhong City in 2023 was combined in the analysis. The results showed that Hanzhong City is rich in pollinator resources, with a total of 80 species of pollinators and 59 species of pollinating crops and wild nectar plants. The abundant pollinator resources provide sufficient pollination services for the production of local vegetables, fruits, and oil crops. The characteristics of the pollination networks are obvious, showing the structural characteristics of low connectivity, medium nesting, and low network specialization. In 2023, the pollination service value of pollinators in Hanzhong City was CNY 3524–4878 billion, accounting for 10.02–13.87% of the city’s agricultural output value of the year. Suggestions for the protection of pollinators in Hanzhong City: Reduce the use of pesticide, support beekeeping, intercrop nectar plants, and rationally plant crops. Full article

This perspective paper examines the multifaceted cultural ecosystem services (CESs) provided by wild bees with particular attention to the spiritual, medicinal, and traditional knowledge-based dimensions associated with Afrotropical stingless bees. We integrate these insights within a biocultural framework, highlighting their relational values and arguing that the systematic omission of these cultural roles in pollinator research, policy and conservation constitutes a form of epistemic injustice. We also argue that the systematic recognition and documentation of these cultural roles are critical to advancing more inclusive and effective conservation frameworks. Based on a synthesis of field observations, photo-documentation, and literature review, we propose future research and policy directions aimed at embedding these cultural values more comprehensively within biocultural conservation strategies. Full article

A worldwide decline in pollinators, combined with the growing demand for pollinator-dependant crops, is increasingly placing the value chains of these crops at risk. Socio-economic impacts can be significant, especially for those economies dependant on export-oriented fruit industries. The valuation of pollinator services is often used for guiding management and investment decisions and aims to not only safeguard these services, but also to balance the supply of, and demand for, pollination services. Although South Africa has a rich pollinator biodiversity and a well-established managed honey bee industry, the supply of pollination is often outpaced by demand. Here for the first time, we attempt a calculation of the aggregate value of insect crop pollination services in South Africa. Using FAO data for 36 insect-dependent crops, we calculate the aggregate value of insect pollination in South Africa using the production function approach. Results show that in 2018, insect pollination was worth over USD 1500 million, equal to 42.2% of the annual production value of insect pollination-dependent crops in South Africa. We highlight the limitations of the valuation in guiding investment in pollination ecosystem services and managed pollination. We suggest that as a good practice, more detailed data related to crop pollination statistics should be collected to allow proper calculation of the ecosystem service contribution to national crop production. Full article

Pollinators are essential for the productivity of many fruit crops, yet their diversity and abundance can be strongly influenced by local management practices. This study investigates the impact of weed management on the abundance and diversity of wild bee communities in Moroccan cherry orchards (Ain Leuh, Middle Atlas). Using a sampling strategy combining pan traps in the orchard and netting on the cherry flowers and the weeds during the cherry bloom season, we found that weeded orchards had significantly higher bee abundance (i.e., number of specimens), while unweeded orchards supported greater species richness (i.e., number of species). Vegetation structure significantly influences bee activity and the performance of sampling techniques. Yellow pan traps contributed to collecting more individuals in weeded orchards, likely due to enhanced visual contrast in the absence of floral cues. Across all sites, the most observed flower visitors included species from the genera Andrena and Lasioglossum, known as important cherry pollinators. These findings highlight the ecological value of maintaining wildflower resources through reduced weed management intensity and suggest that enhancing floral complexity in orchards can support more diverse and abundant pollinator communities, with potential benefits for crop pollination services. Full article

Tall fescue-dominated pasturelands are widespread in the eastern United States and typically lack substantial plant diversity. Establishing native wildflowers into tall fescue pastures has the potential to benefit bee populations and boost pollinator ecosystem services. In this study, tall fescue pastures at five on-farm sites in Virginia, USA, were planted with wildflowers native to North America and paired with sites with conventional tall fescue pastures. Honeybee apiaries were established at the ten locations, and variables related to hive strength were measured over two years. The main study objectives were to: (1) compare metrics of hive strength between diversified and conventional pastures, (2) determine whether honeybees used native-sown wildflowers as a source of pollen, and (3) explore whether native-sown wildflowers were visited more by honeybees and other pollinators compared with nonnative, unsown forbs. Diversified pastures had many more plant species and blooms compared with conventional pastures, but this had little effect on hive parameters. Pollen DNA metabarcoding revealed that honeybee diets were similar regardless of whether hives were associated with diversified or conventional pastures. Honeybees foraged mostly on plants in the surrounding landscape—especially white clover (Trifolium repens) and less so on native wildflowers. Native-sown wildflowers received more visits from native pollinators, however. We hypothesize that the native-sown wildflowers had little impact on hive strength metrics because honeybees had access to abundant, white clover blooms and other flowering species in these landscapes. Native wildflowers that bloom in late summer/early autumn after white clover blooms diminish may be of greater value to honeybees in pasture settings. Full article

Phacelia tanacetifolia Benth. is a species of annual plant that has been gaining importance in recent years. Initially, it was treated as an ornamental plant and valuable only to bees. Over the years, this species has become more widely known, and many more of its advantages have been discovered. The aim of this study was to learn about the contemporary economic importance of Phacelia tanacetifolia Benth. The extraordinary, rapid increase in the plant’s biomass means that it is valued as a fodder plant and at the same time is included in the group of leaders among catch crops. It is characterized by low requirements for soil quality. The main advantage of this plant is its high resistance to drought and frost. A great advantage of this plant is its high drought resistance. It is recommended for sowing both in monoculture and in mixtures with other species. In the light of current standards and assumptions, it fits perfectly into the framework of sustainable development. It is a valuable link in the biodiversity chain, as well as support for a number of ecosystem services such as CO₂ sequestration, retention of nutrients in the soil or protection of its structure. Phacelia is seen as having great potential as a plant that provides food for a number of pollinators. The latest research also focuses on assessing the possibility of using it for energy purposes (biogas). Efforts are being made to introduce phacelia on a wider scale to eliminate crop monocultures and significantly strengthen biodiversity in a given area. Phacelia plays an important role in various agronomic systems and effectively supports the protection of the natural environment. The contribution of this species to the development of ecosystem services to date is undeniable. It should be assumed that this plant will continue to significantly support a number of activities for sustainable development. Full article

The ongoing changes in natural and urban ecosystems, driven by climate change, population growth, and other anthropogenic factors, necessitate the implementation of green infrastructure, such as green roofs and walls. The functional value of these systems is demonstrated through their alignment with the Sustainable Development Goals, particularly Goal 11 (Sustainable Cities and Communities) and Goal 3 (Good Health and Well-Being), which are directly related to the implementation and development of sustainable strategies in buildings and urban environments. By leveraging the ecosystem services they provide, green infrastructure contributes to life on land, enhancing biodiversity—especially for flora, fauna, and pollinators. Additionally, their potential for visual appeal and esthetic value, often emphasized during installation, can enrich the cultural and landscape value of urban spaces, ultimately promoting good health and well-being for urban residents. This study aims to incorporate native vegetation into the design of intensive (walls) and extensive (roofs) green infrastructure within a neotropical mountainous climate. To achieve this, an experimental module was developed, integrating native and non-native vegetation selected based on criteria such as relative growth rate (RGR), measured by species size in relation to geotextile mesh coverage and visual survival status. Additional criteria, including stress (SP), esthetic (AP), and coexistence (CP) metrics, inform design strategies aimed at enhancing biodiversity through the use of native vegetation, while maintaining the esthetic integrity of the design. While further evaluation of a broader range of vegetation is necessary to establish more comprehensive parameters, this study has yielded promising results. It demonstrates that the interaction between certain non-native species and native species can positively influence the survival of the latter, while also supporting the survival of native vegetation with significant esthetic value. Full article

Agriculture, livestock, and forestry are crucial in mitigating hydrogeological risks, such as floods, particularly severe in the Mediterranean region. Still, the ecosystem services (ESs) provided by these activities are often undervalued. However, to assign them an economic value and ensure their effective incorporation into decision-making processes and territorial planning, they must first be recognized, appreciated, and deemed necessary by society. Despite several studies on ESs in the primary sector, research on agroecosystem flood regulation is limited, leaving key aspects unaddressed for decision-makers. No previous studies explicitly address the evaluation of ESs provided by agriculture, livestock, and forestry businesses in hydrogeological risky environments, especially in flood-prone areas. This study investigates the perception of the ESs provided by the above activities, focusing on those furnished in areas subject to hydrogeological instability. It also focuses on Sardinia (Italy), which is highly susceptible to hydrogeological instability. Through a quantitative survey of 270 residents and non-residents, the research provides evidence of society’s perception of the above ESs. Supporting ESs obtain greater appreciation in crop activities, particularly concerning the preservation of pollinating insects, soil fertility, biodiversity, and water quality. Among the regulatory Ess, appreciation is most prominent in fire risk management and flood risk regulation. Similar arguments can be made for livestock activities. Forestry activities are perceived as key players in managing flood risk, landslide risk, soil erosion, and climate change. The Multiple Correspondence Analysis indicates that appreciating one ES often leads to the recognition of others. Additionally, a set of Logit Regressions showed that while age and gender do not influence ESs perception, education level and awareness of climate change-related emergencies play a significant role. Those findings support more informed decision-making and fostering sustainable practices in areas at risk of hydrogeological disasters and lead to several important implications for practitioners, academics, and policymakers. Full article

Justicia adhatoda, also known as Adulsa or Vasaka, is a notable member of the family Acanthaceae, with a broad geographic distribution across varied climatic conditions, and is known for its extensive medicinal properties for treating respiratory disorders, tuberculosis, malaria, and dysentery. It possesses several pharmacological activities, including anti-bacterial, anti-fungal, and anti-cancerous ones. In addition to discussing its morphology, phytochemistry, and pharmacological aspects, the present review also focuses on its several unexplored facets, such as pollination mechanism, cytology, molecular and genetic aspects, conservation, and ecological attributes. The literature survey indicates that, despite its medicinal value, J. adhatoda is also a strong invader in various ecosystems, suppressing associated species and cause vegetation homogenization. It also provides several ecosystem services, including soil stabilization, ecological restoration, and phytoremediation by removing contaminants such as chromium and mercury from wastewater. Additionally, its leaves increase the nitrogen content in compost, promote the proliferation of earthworms, and help suppress plant diseases. This highlights its potential for sustainable land management and integrated disease control. The urgency of this research is underscored by the significant gap in the literature regarding the ecological interactions of J. adhatoda, particularly its allelopathic effects on other plant species. The findings underscore the need for sustainable utilization and conservation strategies, emphasizing the dual importance of J. adhatoda as a medicinal resource and an ecological disruptor. Full article

The honey bee is an important insect pollinator that provides critical pollination services for natural and agricultural systems worldwide. However, inadequate food weakens honey bee colonies, making them vulnerable to various biotic and abiotic factors. In this study, we examined the impact of supplementary feeding on bees’ genes for antioxidative enzymes and vitellogenin, oxidative stress parameters, and the hygienic and grooming behavior. The colonies were divided into two experimental groups (with ten hives each): a treatment group that received the plant-based supplement and a control group. The experiment was conducted in two seasons, spring and summer. After the treatment, in both seasons, all the monitored parameters in the treatment group differed from those in the control group. The expression levels of genes for antioxidative enzymes were significantly lower, but the vitellogenin gene transcript level was significantly higher. Values of oxidative stress parameters were significantly lower. The levels of hygienic and grooming behavior were significantly higher. Therefore, our field study indicates that the tested supplement exerted beneficial effects on bees, reflected in reduced oxidative stress and enhanced hygienic and grooming behavior. Full article

Bees are essential for providing ecosystem services such as pollination to many crops worldwide. However, there is growing concern over the decline of bee populations, which threatens agricultural productivity. Despite the known importance of bees, including non-Apis bees, in crop pollination, their diversity and distribution remain understudied in the Potohar region of Pakistan. The current study addresses this gap by assessing the biodiversity of non-Apis bees across five districts of the Potohar region, Pakistan: Attock, Chakwal, Jhelum, Rawalpindi, and Islamabad. The objective was to evaluate the species richness, diversity, and evenness using various richness and diversity indices. A total of 2005 specimens, representing 27 species from 13 genera and five families (Apidae, Halictidae, Colletidae, Megachilidae, and Andrenidae), were collected over 24 surveys conducted between 2012 and 2015. Two richness indices, Shannon’s Species Richness Index and Margalef’s Richness Index, showed moderate to high species richness across localities, with values ranging from 2.378 to 4.186 and 1.508 to 2.711, respectively. Simpson’s Index and Simpson’s Reciprocal Index exhibited dominance and high diversity across sites, with values ranging from 0.094 to 0.880 and 4.446 to 11.315, respectively. Additionally, the Shannon–Wiener and Shannon Equitability indices indicated fairly even species distributions across localities. A correlation analysis revealed strong positive relationships between most indices, except for Simpson’s Reciprocal Index, which showed negative correlations with the other indices. These findings provide crucial insights into the biodiversity of non-Apis bees in the Potohar region and underscore the importance of maintaining diverse pollinator communities to support sustainable agriculture in the area. Full article