Your search keyword '"habitat management"' showing total 198 results

1. Influence of European Beech (Fagales: Fagaceae) Rot Hole Habitat Characteristics on Invertebrate Community Structure and Diversity.

Author

Cuff JP, Windsor FM, Gilmartin EC, Boddy L, and Jones TH

Subjects

Animals, Biota, Conservation of Natural Resources, Ecosystem, Fagus, Trees, Biodiversity, Forests, Invertebrates

Abstract

Hollows of veteran trees (i.e., rot holes) provide habitat for many rare and threatened saproxylic invertebrates. Rot holes are highly heterogeneous, particularly in terms of substrate and microclimate conditions. There is, however, a dearth of information regarding the differences in biological communities inhabiting rot holes with different environmental conditions. Invertebrates were sampled from European beech (Fagus sylvatica) rot holes in Windsor, Savernake, and Epping Forests (United Kingdom). For each rot hole, physical and environmental conditions were measured, including tree diameter, rot hole dimensions, rot hole height, substrate density, water content, and water potential. These parameters were used to assess the influence of environmental conditions and habitat characteristics on invertebrate communities. Rot hole invertebrate communities were extremely diverse, containing both woodland generalist and saproxylic specialist taxa. Large variation in community structure was observed between rot holes and across woodlands; all sites supported threatened and endangered taxa. Environmental conditions in rot holes were highly variable within and between woodland sites, and communities were predominantly structured by these environmental conditions. In particular, turnover between invertebrate communities was linked to high β-diversity. The linked heterogeneity of environmental conditions and invertebrate communities in rot holes suggests that management of deadwood habitats in woodlands should strive to generate environmental heterogeneity to promote invertebrate diversity. Additional research is required to define how management and conservation activities can further promote enhanced biodiversity across rot holes., (© The Author(s) 2021. Published by Oxford University Press on behalf of Entomological Society of America.)

Published

2021

2. Protected areas act as a buffer against detrimental effects of climate change-Evidence from large-scale, long-term abundance data.

Author

Lehikoinen P, Santangeli A, Jaatinen K, Rajasärkkä A, and Lehikoinen A

Subjects

Animals, Ecosystem, Finland, Animal Distribution, Biodiversity, Birds physiology, Climate Change, Conservation of Natural Resources

Abstract

Climate change is driving species to shift their distributions toward high altitudes and latitudes, while habitat loss and fragmentation may hamper species ability to follow their climatic envelope. These two drivers of change may act in synergy, with particularly disastrous impacts on biodiversity. Protected areas, PAs, may thus represent crucial buffers against the compounded effects of climate change and habitat loss. However, large-scale studies assessing the performance of PAs as such buffers remain scarce and are largely based on species occurrence data. Conversely, abundance data have proven to be more reliable for addressing changes in wildlife populations under climate change. We evaluated changes in bird abundance from the 1970s-80s to the 2000s inside and outside PAs at the trailing range edge of 30 northern bird species and at the leading range edge of 70 southern species. Abundances of retracting northern species were higher and declined less inside PAs at their trailing range edge. The positive effect of PAs on bird abundances was particularly marked in northern species that rely strongly on PAs, that is, their density distribution is largely confined within PAs. These species were nearly absent outside PAs in the 2000s. The abundances of southern species were in general lower inside PAs and increased less from the 70s-80s to 2000s. Nonetheless, species with high reliance on PAs had much higher abundances inside than outside PAs in the 2000s. These results show that PAs are essential in mitigating the retraction of northern species, but also facilitate northward expansions of southern species highly reliant on PAs. Our study provides empirical evidence documenting the role of PAs in facilitating species to adjust to rapidly changing climatic conditions, thereby contributing to the mitigation of impending biodiversity loss. PAs may thus allow time for initiating wider conservation programs on currently unprotected land., (© 2018 John Wiley & Sons Ltd.)

Published

2019

3. [Spatio-temporal distribution of carabids and spiders between semi-natural field margin and the adjacent crop fields in agricultural landscape].

Author

Zhang XZ, Han Y, Yu ZR, and Liu YH

Subjects

Animals, China, Crops, Agricultural, Ecosystem, Agriculture, Biodiversity, Spiders

Abstract

This study was conducted before and after harvesting of wheat and maize in a typical agricultural landscape of the North China Plain. We investigated the diversity of two important natural enemy groups, carabids and spiders, using pitfall traps at crop field margin with different vegetation structures and their neighboring crop field. Throughout the comparison of the spatial and temporal distribution of the diversity of carabids and spiders in field margin and neighboring field, and the investigation of the relationship between arthropod communities and vegetation structure, this study aimed to understand the role of semi-natural field margin in biodiversity conservation of different natural enemy taxa. Results showed that the abundance of spiders was significantly higher in field margin than in neighboring fields over the entire period. No significant difference of the diversity of carabids in field margin and crop field was observed, but the community composition was different. Number of spider families increased in field margin but deceased in crop field after harvesting, indicating a migration activity between field and field margin. Vegetation structure in the field margin had different association with carabids than with spiders, with diversity of dominant carabid species positively associated with herb coverage and negatively with wood coverage, while the diversity of spider family Linyphiidae was positively associated with herb coverage only. Semi-natural habitat benefited the conservation of the diversity of arthropod natural enemies in crop field via promoting their dispersal to crop field, while such impacts differed from different vegetation structures and varied from target beneficial natural enemy communities. Future studies should focus on in-depth understanding of the food and habitat source requirement of different natural enemy taxa, and hence to design suitable semi-natural habitats to maintain a high diversity of natural enemy communities.

Published

2017

4. Local Plant Diversity Across Multiple Habitats Supports a Diverse Wild Bee Community in Pennsylvania Apple Orchards.

Author

Kammerer MA, Biddinger DJ, Rajotte EG, and Mortensen DA

Subjects

Animals, Crops, Agricultural growth & development, Pennsylvania, Pollination, Bees physiology, Biodiversity, Forests, Malus growth & development

Abstract

Wild pollinators supply essential, historically undervalued pollination services to crops and other flowering plant communities with great potential to ensure agricultural production against the loss of heavily relied upon managed pollinators. Local plant communities provision wild bees with crucial floral and nesting resources, but the distribution of floristic diversity among habitat types in North American agricultural landscapes and its effect on pollinators are diverse and poorly understood, especially in orchard systems. We documented floristic diversity in typical mid-Atlantic commercial apple (Malus domestica Borkh.) orchards including the forest and orchard-forest edge ("edge") habitats surrounding orchards in a heterogeneous landscape in south-central Pennsylvania, USA. We also assessed the correlation between plant richness and orchard pollinator communities. In this apple production region, edge habitats are the most species rich, supporting 146 out of 202 plant species recorded in our survey. Plant species richness in the orchard and edge habitats were significant predictors of bee species richness and abundance in the orchard, as well as landscape area of the forest and edge habitats. Both the quantity and quality of forest and edges close to orchards play a significant role in provisioning a diverse wild bee community in this agroecosystem., (© The Authors 2015. Published by Oxford University Press on behalf of Entomological Society of America. All rights reserved. For Permissions, please email: journals.permissions@oup.com.)

Published

2016

5. Force majeure: Will climate change affect our ability to attain Good Environmental Status for marine biodiversity?

Author

Elliott M, Borja Á, McQuatters-Gollop A, Mazik K, Birchenough S, Andersen JH, Painting S, and Peck M

Subjects

Ecosystem, Environmental Monitoring, Environmental Policy, Oceans and Seas, Biodiversity, Climate Change, Conservation of Natural Resources methods

Abstract

The EU Marine Strategy Framework Directive (MSFD) requires that Good Environmental Status (GEnS), is achieved for European seas by 2020. These may deviate from GEnS, its 11 Descriptors, targets and baselines, due to endogenic managed pressures (from activities within an area) and externally due to exogenic unmanaged pressures (e.g. climate change). Conceptual models detail the likely or perceived changes expected on marine biodiversity and GEnS Descriptors in the light of climate change. We emphasise that marine management has to accommodate 'shifting baselines' caused by climate change particularly during GEnS monitoring, assessment and management and 'unbounded boundaries' given the migration and dispersal of highly-mobile species. We suggest climate change may prevent GEnS being met, but Member States may rebut legal challenges by claiming that this is outside its control, force majeure or due to 'natural causes' (Article 14 of the MSFD). The analysis is relevant to management of other global seas., (Copyright © 2015 Elsevier Ltd. All rights reserved.)

Published

2015

6. Thermoregulation and microhabitat use in mountain butterflies of the genus Erebia: importance of fine-scale habitat heterogeneity.

Author

Kleckova I, Konvicka M, and Klecka J

Subjects

Altitude, Animals, Temperature, Biodiversity, Body Temperature Regulation, Butterflies physiology

Abstract

Mountain butterflies have evolved efficient thermoregulation strategies enabling their survival in marginal conditions with short flight season and unstable weather. Understanding the importance of their behavioural thermoregulation by habitat use can provide novel information for predicting the fate of alpine Lepidoptera and other insects under ongoing climate change. We studied the link between microhabitat use and thermoregulation in adults of seven species of a butterfly genus Erebia co-occurring in the Austrian Alps. We captured individuals in the field and measured their body temperature in relation to microhabitat and air temperature. We asked whether closely related species regulate their body temperature differently, and if so, what is the effect of behaviour, species traits and individual traits on body to air and body to microhabitat temperature differences. Co-occurring species differed in mean body temperature. These differences were driven by active microhabitat selection by individuals and also by species-specific habitat preferences. Species inhabiting grasslands and rocks utilised warmer microclimates to maintain higher body temperature than woodland species. Under low air temperatures, species of rocky habitats heated up more effectively than species of grasslands and woodlands which allowed them to stay active in colder weather. Species morphology and individual traits play rather minor roles in the thermoregulatory differences; although large species and young individuals maintained higher body temperature. We conclude that diverse microhabitat conditions at small spatial scales probably contribute to sympatric occurrence of closely related species with different thermal demands and that preserving heterogeneous conditions in alpine landscapes might mitigate detrimental consequences of predicted climate change., (Copyright © 2014 Elsevier Ltd. All rights reserved.)

Published

2014

7. Looking through the lens of Mace's conservation philosophy: framing paleoecology for better ecosystem restoration.

Author

Siggery, Ben, Bennion, Helen, Harris, Zoe M., Murphy, Richard, Morse, Stephen, and Waite, Mike

Subjects

*RESTORATION ecology, *PALEOECOLOGY, *BIODIVERSITY conservation, *APPLIED sciences, *HABITATS

Abstract

In the late Professor G. Mace's iconic work entitled “Whose conservation?” she laid out the four movements through which U.K. conservation has progressed in the last 70 years. These are key concepts in understanding the motivations and perspectives behind conservation practice and continue to provide a useful framework through which to examine the contributions of related disciplines to habitat management and ecological restoration. Paleoecology, whilst well established as a field of research, is still finding its place as an applied science that is fully integrated into conservation practice. To facilitate the closing of this research‐implementation gap, the paper presents a reflection of the current and potential contributions of paleoecology through the lens of Mace's four conservation philosophies. The key message that emerges is that the integration and application of paleoecology in conservation is essential to holistically address the ongoing biodiversity crisis. [ABSTRACT FROM AUTHOR]

Published

2024

8. Influence of habitat management and selected environmental parameters on the ground-living communities of harvestmen (Opiliones) in the historical park in Rusovce (Slovakia).

Author

Litavský, Juraj, Majzlan, Oto, Langraf, Vladimír, and Žarnovičan, Hubert

Subjects

HISTORIC parks, PUBLIC spaces, SPECIES diversity, PITFALL traps, PLANT diversity

Abstract

City parks serve as valuable refuges for invertebrates in the urban environment, which are constantly exposed to human influence caused by management practices in the parks. Many harvestman species are suitable bioindicators for monitoring ecological change; however, their effective use in environmental assessment necessitates to expand the insufficient knowledge of ecological environmental specificities of their communities. We studied the diversity and dynamics of harvestman (Opiliones) communities in the historical park in Rusovce, situated in the southwestern part of Bratislava (Slovakia). Seven study sites were investigated, representing areas subjected to different management practices. The research was conducted from March 2019 to April 2020, using pitfall traps. We evaluated the impact of microclimatic variables (soil and air temperature), environmental characteristics (plant diversity and cover of vegetation layers, age of forest stands, thickness of the litter layer), and management practices on the structure of harvestman communities. The study revealed the response of specific harvestman species to temperature variations, emphasizing the importance of microclimatic conditions. Environmental variables, such as the richness of plant species in the shrub layer, the cover of the herb and shrub vegetation layers, and the age of the forest stands, were identified as key factors that influence the dispersal of harvestman species. Furthermore, management practices, especially the presence of monoculture tree plantations, significantly affected the species composition of harvestmen. Examining the sensitivity of Opiliones, important bioindicators, to these factors is crucial for implementing effective conservation strategies in urban green spaces and anthropogenically influenced ecosystems. [ABSTRACT FROM AUTHOR]

Published

2024

9. Intercropping with aromatic plants enhances natural enemy communities facilitating pest suppression in tea plantations.

Author

Gong, Bing, Wang, Jie, Hatt, Séverin, Desneux, Nicolas, Wang, Su, and Jin, Linhong

Abstract

Habitat management have received considerable attention in agricultural systems for the promotion of successful pest management. The intercropping of aromatic plants in plantation crops can result in reduced pest abundance as a repellent directly and/or increasing natural enemy abundance thereby reducing pest abundance indirectly. To promote the management of pests in tea plantations, we intercropped three aromatic plants, Tagetes patula (L.) (Asteraceae), Tagetes erecta (L.) (Asteraceae), and Perilla frutescens (L.) Britton (Lamiaceae) to assess their impact on the dynamics of species abundance, richness, and diversity of arthropod pests and their natural enemies over 2 years. Results showed that aromatic plants decreased the abundance of pest, with concomitant increases in predator (especially spiders and ladybirds) and parasitoid (Ichneumonidae spp.) abundance, creating a stable low abundance of pests in tea plantations. The ratio of natural enemies to pests in fields intercropped with T. erecta was fourfold to sevenfold higher than observed in naturally tilled plots. Aromatic plants also had a significant positive effect on species richness and evenness of natural enemies. The T. patula and T. erecta intercropped treatments showed significantly higher pest evenness and higher natural enemy diversity than that in clean tillage. Our study indicated that biocontrol via habitat management with intercropping aromatic plants could become a recommended practice for pest management in tea plantations. [ABSTRACT FROM AUTHOR]

Published

2024

10. Reptiles as Environmental Sentinels: Exploring Their Significance

Author

Jacob, Daniel Etim, Nеlson, Imaobong Ufot, Efenakpo, Ogaga Dean, Izah, Sylvester Chibueze, Izah, Sylvester Chibueze, editor, Ogwu, Matthew Chidozie, editor, and Hamidifar, Hossein, editor

Published

2024

11. Conservation value of vanilla agroecosystems for vertebrate diversity in north-east Madagascar

Author

Daniel Hending, Angelo Andrianiaina, Zafimahery Rakotomalala, and Sam Cotton

Subjects

Agroforestry, animal conservation, biodiversity, habitat management, Madagascar, species richness, vanilla plantation, vertebrate surveys, General. Including nature conservation, geographical distribution, QH1-199.5

Abstract

As a result of increasing global demand for food, large areas of natural habitat are being converted to agroecosystems to accommodate crop cultivation. This agricultural expansion is most prominent in the tropics, where many rural communities are dependent solely on farming income for their livelihoods. Such agricultural land conversion can have severe implications for local fauna. In this study, we compared vertebrate species diversity between natural forest habitat and three types of vanilla plantations maintained under varying management regimes in north-east Madagascar. We used diurnal and nocturnal transects to survey vertebrate diversity. Natural forest habitat contained the greatest vertebrate species diversity, and had proportionally more threatened and endemic species than all vanilla plantation types. However, we observed a greater number of species and a higher inverse Simpson index in minimally managed vanilla plantations located within or near natural forest compared to intensively managed vanilla plantations. These findings are important and encouraging for animal conservation and sustainable crop cultivation in Madagascar, and suggest that newly created vanilla plantations, and already existing plantations, should endeavour to follow the more traditional, minimalistic management approach to improve sustainability and promote higher faunal diversity.

Published

2023

12. Effect of Canal Bank Engineering Disturbance on Plant Communities: Analysis of Taxonomic and Functional Beta Diversity.

Author

Pugh, Brittany E. and Field, Richard

Subjects

PLANT communities, SOCIAL dominance, PLANT engineering, BIOLOGICAL extinction, FUNCTIONAL analysis, STOCHASTIC dominance, CULTURAL pluralism, ENDANGERED species

Abstract

We aimed to determine how patterns of functional and taxonomic dissimilarities and their components differ between disturbed and undisturbed plant communities. Taxonomic (species) and functional (trait) diversity are key aspects of biodiversity, and their respective dissimilarities are important in diversity scaling and for informing conservation. We utilized a pseudo-experimental setting, the Basingstoke Canal, UK, where sections of canal bank have been repaired over a four-year period and are interspersed with sections left undisturbed. We collected plant community data, computed functional beta diversity and taxonomic beta diversity and partitioned them into species loss and replacement components. We compared disturbed and undisturbed plots with respect to these dissimilarity measures, the time since disturbance, invasive species, plant life-forms and environmental dissimilarity. We found high levels of taxonomic (85–90%) and functional (70–76%) dissimilarities between disturbed and undisturbed sites, primarily driven by turnover. The total dissimilarity was lower for functional dissimilarity than taxonomic dissimilarity. Disturbed sites had greater between-site taxonomic and functional dissimilarities and lower plant abundances than undisturbed sites, driven by both turnover and nestedness components. The disturbed site functional diversity diverged strongly from null expectations. We found no significant effects of time since disturbance, environmental variables or invasive species, possibly indicating the dominance of stochastic, local-scale processes. However, disturbed sites had lower levels of phanerophyte richness and higher levels of therophyte richness. Our results indicate that small-scale disturbances may increase taxonomic and functional between-community dissimilarities in anthropogenic habitats without increasing invasive species, lending support to local-scale conservation that enhances habitat heterogeneity to promote taxonomic diversity and its corresponding biotic functions. [ABSTRACT FROM AUTHOR]

Published

2023

13. Sown wildflowers between vines increase beneficial insect abundance and richness in a British vineyard.

Author

Griffiths‐Lee, Janine, Davenport, Balin, Foster, Bradley, Nicholls, Elizabeth, and Goulson, Dave

Subjects

*WILD flowers, *MOWING, *INSECT surveys, *SOWING, *VINEYARDS, *INSECTS, *CLIMBING plants

Abstract

Traditional vineyards are generally intensive monocultures with high pesticide usage. Viticulture is one of the fastest‐growing sectors of English agriculture, although there is currently limited research on habitat management practices.In a vineyard in East Sussex, England, we tested five inter‐row ground cover treatments on their potential in supporting beneficial insects: two commercially available seed mixes (meadow mix and pollen and nectar mix), a wild bee seed mix (formulated based on pollinator foraging preferences), natural regeneration, and regularly mowed grass.Over two years, from May to August, we conducted monthly floral surveys and insect surveys using transect walks and pan traps.The abundance and richness of flowers in the natural regeneration treatment were twice that of the regularly mown inter‐row treatment. By year 2, the abundance of "total insects" sampled was significantly higher in the wild bee mix compared to mown. Likewise, there was a significant effect of treatment type on pollinator richness, with a higher mean richness found in wild bee mix. Solitary wasp family richness was highest in the natural regeneration treatment and lowest in the mown treatment.Given the rapid growth and lack of specific environmental recommendations for British viticulture, we demonstrate a simple and effective approach for supporting beneficial insects and ecosystem services. Promotion of perennial wildflowers through sowing or allowing natural regeneration in inter‐row ground cover in vineyards has the potential to boost biodiversity in vineyards on a large scale if widely adopted. [ABSTRACT FROM AUTHOR]

Published

2023

14. Conservation value of vanilla agroecosystems for vertebrate diversity in north-east Madagascar.

Author

Hending, Daniel, Andrianiaina, Angelo, Rakotomalala, Zafimahery, and Cotton, Sam

Subjects

*VANILLA, *WILDLIFE conservation, *SUSTAINABILITY, *ANIMAL diversity, *AGRICULTURAL ecology, *FARMS

Abstract

As a result of increasing global demand for food, large areas of natural habitat are being converted to agroecosystems to accommodate crop cultivation. This agricultural expansion is most prominent in the tropics, where many rural communities are dependent solely on farming income for their livelihoods. Such agricultural land conversion can have severe implications for local fauna. In this study, we compared vertebrate species diversity between natural forest habitat and three types of vanilla plantations maintained under varying management regimes in north-east Madagascar. We used diurnal and nocturnal transects to survey vertebrate diversity. Natural forest habitat contained the greatest vertebrate species diversity, and had proportionally more threatened and endemic species than all vanilla plantation types. However, we observed a greater number of species and a higher inverse Simpson index in minimally managed vanilla plantations located within or near natural forest compared to intensively managed vanilla plantations. These findings are important and encouraging for animal conservation and sustainable crop cultivation in Madagascar, and suggest that newly created vanilla plantations, and already existing plantations, should endeavour to follow the more traditional, minimalistic management approach to improve sustainability and promote higher faunal diversity. [ABSTRACT FROM AUTHOR]

Published

2023

15. Canopy cover and seasonality are associated with variation in native bee assemblages across a mixed pine‐juniper woodland.

Author

Davis, Thomas Seth and Comai, Nathan

Subjects

*BEES, *HALICTIDAE, *POLLINATORS, *FORESTS & forestry, *PONDEROSA pine, *PINE, *CONDITIONED response

Abstract

Pollinator community responses to changing conditions are a concern for ecosystem managers, but it remains poorly understood how shifts in forest structure impact pollinators across small scales. To address this, bee assemblages were sampled in arid woodland habitat in the southwestern United States (Colorado) to evaluate effects of canopy cover and seasonality on bee diversity and composition.>2500 specimens were captured representing 5 families and 30 genera. Bee composition shifted seasonally; early‐season assemblages were predominated by Halictidae (Lasioglossum and Halictus); late‐season assemblages were predominated by Apidae.More bees were captured in canopy gaps early‐season, but differences due to canopy openness declined by late‐season. Bee diversity was higher in open‐canopy sites and bee assemblage composition varied across canopy openness.Low cover was positively associated with large‐bodied bees and negatively associated with solitary, polylectic ground‐nesting bees. Parasitic bee taxa were more abundant when the canopy was composed of pinyon pine; ponderosa pine‐dominant canopies were associated with large‐bodied bees with variable nesting habits.We conclude that canopy cover and seasonality both predict abundance and diversity of bee assemblages in arid woodlands, and bee functional traits are responsive to canopy cover and dominant overstory species across small spatial scales. [ABSTRACT FROM AUTHOR]

Published

2022

16. Diverse non-crop vegetation assemblages as banker plants for predatory mites in strawberry crop.

Author

Hata, Fernando Teruhiko, Togni, Pedro Henrique, Ventura, Maurício Ursi, da Silva, José Eduardo Poloni, Ferreira, Nilson Zacarias, and Constantino, Leonel

Subjects

*PREDATORY mite, *PLANT diversity, *GREENHOUSE plants, *NUMBERS of species, *FIELD crops, *STRAWBERRIES

Abstract

Non-crop plant diversity plays a fundamental role in the conservation of predatory mite (PM) and can be proposed as a banker plant system (BPS). BPSs provide plants that host natural enemies in greenhouses or field crops and may improve the efficiency of biological control. The aim of this study was to investigate if a diverse plant composition could be a suitable BPS for PMs in strawberry crops. A plant inventory characterized 22 species of non-crop plants harboring PMs. The most abundant PMs, in decreasing order, were Neoseiulus californicus, Neoseiulus anonymus, Euseius citrifolius, and Euseius concordis. PMs were randomly distributed among plants. We also found specific associations of Phytoseiidae species and phytophagous or generalist mites on plants. Due to this, four species were deemed suitable as banker plants: Capsicum sp., Leonurus sibiricus, Solanum americanum, and Urochloa mutica. Moreover, these plants combined a high PMs density and a low occurrence or absence of pest-mites. This study suggests shifting the traditional view that BPSs are composed of a limited number of species to use plant assemblages. This contributes to both conservation and augmentative biological control. [ABSTRACT FROM AUTHOR]

Published

2022

17. Effect of Canal Bank Engineering Disturbance on Plant Communities: Analysis of Taxonomic and Functional Beta Diversity

Author

Brittany E. Pugh and Richard Field

Subjects

alien species, biodiversity, functional beta diversity, habitat disturbance, habitat management, Jaccard index, Agriculture

Abstract

We aimed to determine how patterns of functional and taxonomic dissimilarities and their components differ between disturbed and undisturbed plant communities. Taxonomic (species) and functional (trait) diversity are key aspects of biodiversity, and their respective dissimilarities are important in diversity scaling and for informing conservation. We utilized a pseudo-experimental setting, the Basingstoke Canal, UK, where sections of canal bank have been repaired over a four-year period and are interspersed with sections left undisturbed. We collected plant community data, computed functional beta diversity and taxonomic beta diversity and partitioned them into species loss and replacement components. We compared disturbed and undisturbed plots with respect to these dissimilarity measures, the time since disturbance, invasive species, plant life-forms and environmental dissimilarity. We found high levels of taxonomic (85–90%) and functional (70–76%) dissimilarities between disturbed and undisturbed sites, primarily driven by turnover. The total dissimilarity was lower for functional dissimilarity than taxonomic dissimilarity. Disturbed sites had greater between-site taxonomic and functional dissimilarities and lower plant abundances than undisturbed sites, driven by both turnover and nestedness components. The disturbed site functional diversity diverged strongly from null expectations. We found no significant effects of time since disturbance, environmental variables or invasive species, possibly indicating the dominance of stochastic, local-scale processes. However, disturbed sites had lower levels of phanerophyte richness and higher levels of therophyte richness. Our results indicate that small-scale disturbances may increase taxonomic and functional between-community dissimilarities in anthropogenic habitats without increasing invasive species, lending support to local-scale conservation that enhances habitat heterogeneity to promote taxonomic diversity and its corresponding biotic functions.

Published

2023

18. Improving benthic biodiversity assessments in turbid aquatic environments.

Author

Jones, Robyn E., Unsworth, Richard K.F., Hawes, Jon, and Griffin, Ross A.

Subjects

UNDERWATER cameras, BIODIVERSITY, LIGHT scattering, AQUATIC biodiversity, MARINE biodiversity, INFORMATION storage & retrieval systems, OCEAN bottom

Abstract

Biodiversity in turbid aquatic environments is commonly assessed using extractive sampling methods that damage the seabed. Underwater cameras equipped with clear liquid optical chambers (CLOCs) for the assessment of seabed habitats and species are a non‐extractive alternative and have been applied in turbid environments globally. A CLOC is a body of clear liquid positioned in front of a camera to reduce the scattering of light that would otherwise occur when passing through the turbid water it displaces. Here, we test and quantify the effectiveness of a CLOC for marine benthic biodiversity assessments over gradients of increasing turbidity.The addition of a CLOC to a conventional benthic camera system significantly enhanced the quality of information gathered. Images acquired using the CLOC system consistently recorded statistically higher values of image quality (49% increase, based on the clarity of the image), seabed visible within the drop‐down frame (34% increase), and European Nature Information System habitat level identification (49% increase). Furthermore, it was found that the 'annotation success' of taxa (classification of a specimen to family level or higher) was found to increase between individual experts in the presence of a CLOC. A reduced sampling effort was also identified when using a CLOC. Taxonomic richness increased by 27% when comparing the same number of image stills collected with and without the CLOC.By reducing the limitations of underwater visibility previously attributed to underwater cameras, this concept extends the potential for use of non‐destructive survey techniques and allows for future users to collect robust information of an area, making better informed management decisions. [ABSTRACT FROM AUTHOR]

Published

2021

19. The benefits of protected areas for bird population trends may depend on their condition.

Author

Brighton, Caroline H., Massimino, Dario, Boersch-Supan, Philipp, Barnes, Ailidh E., Martay, Blaise, Bowler, Diana E., Hoskins, Hannah M.J., and Pearce-Higgins, James W.

Subjects

*BIRD populations, *PROTECTED areas, *BIRD habitats, *LAND cover, *BIRD breeding, *BIRD surveys

Abstract

The Post-2020 Global Biodiversity Framework calls for at least 30% of land and sea to be protected by 2030. Whilst there is growing evidence that protected areas can benefit biodiversity, to achieve the greatest possible gains from their expansion, we must understand how protected area quality impacts upon biodiversity metrics. We used UK BTO/JNCC/RSPB Breeding Bird Survey data and protected areas condition data from national Common Standards Monitoring, to test whether improving site condition (for which there are UK policy targets) would contribute to stated policy targets to increase species' abundance. After controlling for differences in climate, land cover, and elevation, we found a positive association between the proportion of favourable habitat and bird abundance trends in the UK, while in Wales, Scotland and Northern Ireland combined, the positive effect was also significantly greater than in unfavourable habitat. Conversely, we also found a negative effect of proportion of favourable habitat on bird abundance. There was no evidence that these relationships varied between conservation status or many of the traits considered, although there was some evidence that favourable condition was beneficial for habitat specialists, cold-adapted species, and varied by habitat. Our findings suggest that improving the condition of protected areas currently in unfavourable condition, will contribute to nature recovery as measured by species' abundance trends in some circumstances. This also suggests that achieving the "30 by 30" target without ensuring those protected areas are of sufficient quality, may not be sufficient to restore biodiversity. [ABSTRACT FROM AUTHOR]

Published

2024

20. Short-term response of fish assemblages to instream habitat restoration in heavily impacted streams

Author

Angelo Rodrigo Manzotti, Mônica Ceneviva-Bastos, Fabrício Barreto Teresa, and Lilian Casatti

Subjects

Biodiversity, Habitat Management, Neotropical streams, Structural Complexity, Woody debris, Zoology, QL1-991

Abstract

ABSTRACT Habitat homogenization has been a major impact in stream ecosystems, and it is considered one of the main drivers of biotic homogenization as well, leading to the loss of water quality and fish diversity. In this study, we added artificial woody structures and leaf packs in physically impacted streams to test if the additions can improve habitat complexity and change the taxonomic and functional structure of fish communities. The experiment was done in eight streams impacted by siltation, deforestation, and habitat homogeneization, inserted in an agricultural landscape from the Upper Paraná River Basin, and lasted 112 days. The provision of artificial microhabitats increased instream habitat diversity by creating patches of organic matter deposits, changing flow, and providing substrate for grass colonization of the instream habitat. The experimental manipulation also changed fish species abundance. Nine species contributed to these changes, five decreased and four increased in abundance, indicating species responded differently to the experimental manipulation. However, overall species richness, diversity, and community functional traits remained unaltered. These results indicate that short-term habitat restoration on a local scale may not be enough to promote changes in fish community attributes of streams that are heavily impacted.

Published

2020

21. Coralligenous assemblages along their geographical distribution: Testing of concepts and implications for management.

Author

Çinar, Melih Ertan, Féral, Jean‐Pierre, Arvanitidis, Christos, David, Romain, Taşkin, Ergün, Sini, Maria, Dailianis, Thanos, Doğan, Alper, Gerovasileiou, Vasilis, Evcen, Alper, Chenuil, Anne, Dağli, Ertan, Aysel, Veysel, Issaris, Yannis, Bakir, Kerem, Nalmpantı, Melina, Sartoretto, Stephane, Salomidi, Maria, Sapouna, Anastasia, and Açik, Sermin

Subjects

ECOLOGICAL regions, CONCEPTS, HABITATS, HYPOTHESIS, BENTHOS, SPATIAL variation

Abstract

1.The coralligenous habitat was studied at the large Mediterranean scale, by applying a standardized, non‐destructive photo‐sampling protocol, developed in the framework of the CIGESMED project.2.The results provided evidence to support the following statements: (a) the assemblage pattern is not homogeneously distributed across the four Mediterranean ecoregions studied (biotic gradients hypothesis); and (b) the assemblage pattern does not change significantly when the information is aggregated to higher taxonomic levels (taxonomic sufficiency hypothesis).3.Surrogate taxonomic categories higher than species, such as genus and family, can be used to reveal the multivariate pattern of the coralligenous assemblages.4.Although preliminary at the pan‐Mediterranean scale, these outcomes set the scene for future comparisons as more data sets become available but also for comparisons between taxonomic and functional patterns. [ABSTRACT FROM AUTHOR]

Published

2020

22. UK deep‐sea conservation: Progress, lessons learned, and actions for the future.

Author

Chaniotis, Peter D., Robson, Laura M., Lemasson, Anaëlle J., Cornthwaite, Alice L., and Howell, Kerry L.

Subjects

MARINE biodiversity, MARINE parks & reserves, MARINE habitats, FISHERY management, NATURAL capital, OCEAN mining, ECOSYSTEM services, BIODIVERSITY conservation

Abstract

Despite a relatively long history of scientific interest fuelled by exploratory research cruises, the UK deep sea has only recently emerged as the subject of targeted and proactive conservation. Enabling legislation over the past 10 years has resulted in the designation of marine protected areas and the implementation of fisheries management areas as spatial conservation tools. This paper reflects on progress and lessons learned, recommending actions for the future.Increased investment has been made to improve the evidence base for deep‐sea conservation, including collaborative research surveys and use of emerging technologies. New open data portals and developments in marine habitat classification systems have been two notable steps to furthering understanding of deep‐sea biodiversity and ecosystem functioning in support of conservation action.There are still extensive gaps in fundamental knowledge of deep‐sea ecosystems and of cause and effect. Costs of new technologies and a limited ability to share data in a timely and efficient manner across sectors are barriers to furthering understanding. In addition, whilst the concepts of natural capital and ecosystem services are considered a useful tool to support the achievement of conservation goals, practical application is challenging.Continued collaborative research efforts and engagement with industry to share knowledge and resources could offer cost‐effective solutions to some of these barriers. Further elaboration of the concepts of natural capital and ecosystem services will aid understanding of the costs and benefits associated with human–environment interactions and support informed decision‐making in conserving the deep sea.Whilst multiple challenges arise for deep‐sea conservation, it is critical to continue ongoing conservation efforts, including exploration and collaboration, and to adopt new conservation strategies that are implemented in a systematic and holistic way and to ensure that these are adaptive to growing economic interest in this marine area. [ABSTRACT FROM AUTHOR]

Published

2020

23. What evidence exists on the impact of agricultural practices in fruit orchards on biodiversity? A systematic map.

Author

van der Meer, Markus, Kay, Sonja, Lüscher, Gisela, and Jeanneret, Philippe

Subjects

AGROBIODIVERSITY, SCIENTIFIC knowledge, ORCHARDS, ORCHARD management, AGRICULTURAL landscape management, BIODIVERSITY

Abstract

Background: Biodiversity loss, partly due to intensification of agriculture, has become a global issue. In this context, fruit producers have been looking for nature-friendly production methods. By reducing intensive pesticide use and enhancing orchard management, they aim to create habitats suitable for beneficial organisms. Fruit production, especially in low-stem orchards, requires several interventions (plant protection, tillage, greenwork) throughout the year, each of them representing a disturbance. Thus, an expert system that evaluates and aggregates the impact of individual farming activities on a set of biodiversity indicators would be a valuable tool for developing new, less biodiversity-damaging scenarios. This expert system should be based on expert knowledge and scientific evidence. Surprisingly, our literature searches suggested that international journals contain few publications on the impact of most practices (except pesticide use) in orchards on biodiversity in general and beneficial organisms in particular. However, in the last decade, an increasing number of published articles have pointed out the rising importance of biodiversity in life cycle assessment. We therefore compiled and structured the available evidence to (1) assess the state of research on discrete biodiversity indicators and agricultural practices, (2) identify the literature relevant for assessing production impact and habitat suitability for supporting biodiversity and (3) provide a wide-ranging overview of existing evidence of the impact of agricultural practices in fruit orchards on biodiversity. Methods: A systematic literature search was performed in scientific journals, agronomy magazines and across the internet in English, German and French. The main reviewer followed a step-by-step eligibility scheme that was validated by a Kappa test between two reviewers. Additionally, a third reviewer checked a subset of articles. We mapped a large range of parameters, which were structured in code sets. To compute a study validity assessment, we used 13 parameters that reflected the relevance of each article to the impact of agricultural practices in fruit orchards on biodiversity indicator species groups. Results: The search returned 947 included articles. The map identified major differences in the attention given to different indicators and practices over time, ranging from closely investigated (clusters) to neglected (gaps)—e.g. spiders and birds or amphibians and reptiles, respectively. The majority of studies were short-term surveys, mainly done in low-stem orchards. Main areas studied were Western Europe and Eastern North America. The resulting database is presented along with descriptive statistics of the distribution and abundance of evidence across time, interventions and outcomes. Conclusions: The current systematic map reveals that rigorous and comprehensive investigations on the suitability of orchards as perennial habitats for wildlife, run on the long-term and following a holistic approach, are still basically lacking. Although evidence base on orchard management effects on particular organisms has grown over the past two decades, information to develop reliable close-to-nature management tools and strategies is insufficient. The implications for policy and research suggest that—in view of worldwide biodiversity loss, which may cause a major threat for food production—a better understanding of the role played by orchards and their management in agricultural landscapes for biodiversity is required. [ABSTRACT FROM AUTHOR]

Published

2020

24. Short-term response of fish assemblages to instream habitat restoration in heavily impacted streams.

Author

Manzotti, Angelo Rodrigo, Ceneviva-Bastos, Mônica, Barreto Teresa, Fabrício, and Casatti, Lilian

Subjects

*STREAM restoration, *HABITATS, *FISH diversity, *FISH communities, *WATER quality, *RIVERS

Abstract

Habitat homogenization has been a major impact in stream ecosystems, and it is considered one of the main drivers of biotic homogenization as well, leading to the loss of water quality and fish diversity. In this study, we added artificial woody structures and leaf packs in physically impacted streams to test if the additions can improve habitat complexity and change the taxonomic and functional structure of fish communities. The experiment was done in eight streams impacted by siltation, deforestation, and habitat homogenization, inserted in an agricultural landscape from the Upper Paraná River Basin, and lasted 112 days. The provision of artificial microhabitats increased instream habitat diversity by creating patches of organic matter deposits, changing flow, and providing substrate for grass colonization of the instream habitat. The experimental manipulation also changed fish species abundance. Nine species contributed to these changes, five decreased and four increased in abundance, indicating species responded differently to the experimental manipulation. However, overall species richness, diversity, and community functional traits remained unaltered. These results indicate that short-term habitat restoration on a local scale may not be enough to promote changes in fish community attributes of streams that are heavily impacted. [ABSTRACT FROM AUTHOR]

Published

2020

25. Spatio-temporal complementarity of floral resources sustains wild bee pollinators in agricultural landscapes.

Author

Ammann, Lolita, Bosem-Baillod, Aliette, Herzog, Felix, Frey, David, Entling, Martin H., and Albrecht, Matthias

Subjects

*POLLINATORS, *POLLINATION, *AGRICULTURE, *BEES, *WILDLIFE conservation, *SPECIES diversity, *SPRING, *PLANT species diversity

Abstract

Targeted conservation and promotion of wild bees in agroecosystems requires understanding of relationships between different groups of bees and available floral resources across land-use types during the season and at the landscape scale. Here, we quantified floral resource amount and diversity across habitat types at different times during the season at the scale of entire landscapes (500 m radius) across 20 different agricultural landscapes. Moreover, we examined whether floral resource metrics obtained from these high-resolution floral resource maps are more suitable to assess and predict abundance and species richness of different bee pollinator groups, including rare species and important crop pollinators, sampled in these agricultural landscapes compared to traditional land-cover metrics. Floral resource availability shifted from flower-rich woody vegetation early in the season to herbaceous vegetation such as grasslands and crops later in the season, which was associated with a ten-fold decline in overall floral resource availability. Forest edges had highest per-area floral contributions in spring, whereas floral diversity of grasslands, in particular if extensively managed, was continuously high. Total wild bee species richness, as well as rare species richness and abundance of important crop pollinators, increased with floral resource availability and/or diversity contributed by forest edges and floral diversity of permanent grasslands. Rare bee richness was also positively related to floral resource amount provided by crops. Total bee richness and important crop pollinator abundance, but not rare bee richness, were positively related to overall floral resource amount, but not floral diversity, in the landscape. Floral resource maps based on floral resource supply by major habitat types early or late in the season predicted wild bee species richness (R 2 =0.61) better than traditional descriptors of landscape composition such as proportion of semi-natural habitat. The pronounced temporal shifts in floral resource availability for pollinators from woody towards herbaceous vegetation during the season highlights the importance of taking a landscape-scale perspective on pollinator conservation. Our findings indicate that both rare bees and important crop pollinators benefit from complementary floral resources of forest edges and grasslands in agroecosystems. This reveals a potential synergy between the conservation of endangered species and the landscape scale management to promote pollination services. Our study also highlights that floral resource maps are useful tools in supporting more targeted pollinator conservation and pollination service management at the landscape level. • Floral resource complementarity across habitats during the season supports bees. • Pronounced floral resource shifts from woody to herbaceous vegetation during season. • Floral resources of forest edges and grasslands key for rare bees and crop pollinators. • Floral resource maps better predict wild bees than landscape composition. • Functional resource maps are useful tools for targeted pollinator conservation. [ABSTRACT FROM AUTHOR]

Published

2024

26. Enhancement of the Diversity of Pollinators and Beneficial Insects in Intensively Managed Vineyards

Author

Francisco Javier Peris-Felipo, Fernando Santa, Oscar Aguado, José Vicente Falcó-Garí, Alicia Iborra, Michael Schade, Claire Brittain, Vasileios Vasileiadis, and Luis Miranda-Barroso

Subjects

biodiversity, vineyards, agro-ecosystems, sustainability, habitat management, insect conservation, Science

Abstract

(1) Modern, intensive agricultural practices have been attributed to the loss of insect biodiversity and abundance in agroecosystems for the last 80 years. The aim of this work is to test whether there are statistically significant differences in insect abundance between different zones and over time on the vineyard field. (2) The study was carried out in five intensive wine farms in Spain over a three-year period (2013–2015). Each field was divided into two zones, one where cover plants were planted, and another remained unchanged (without cover). (3) A clear trend to increase the average number of insect species and individuals throughout the years in all farms was observed. Moreover, the zones with cover plants showed a significant difference with respect to the zones without. (4) The use of permanent cover plants allows creating areas of refuge for the insects favouring their conservation and reducing the agriculture impact in the insect decline.

Published

2021

27. Nitrogen mitigation: A review of nitrogen deposition impacts and mitigation potential in Scottish semi-natural ecosystems

Author

Britton, Andrea J., Fielding, Debbie A., and Pakeman, Robin J.

Subjects

Habitat management, Mitigation, Ecosystem function, Biodiversity, Nitrogen deposition

Abstract

Deposition of reactive nitrogen from anthropogenic sources greatly exceeds natural fluxes and, in Scotland, a large proportion of semi-natural ecosystems (i.e., communities of native species, modified to varying degrees by human activities) currently experience nitrogen deposition loads in excess of the thresholds at which adverse impacts have been reported. This review provides a summary of current knowledge on the thresholds for adverse nitrogen impacts in Scottish terrestrial semi-natural ecosystems, ecosystem responses to excess nitrogen deposition, the scope for mitigating the impacts of nitrogen deposition through habitat management and metrics which could be used to monitor ecosystem recovery.

Published

2023

28. The Effect of the Proportion of Adjacent Non-Crop Vegetation on Plant and Invertebrate Diversity in the Vineyards of the South Moravian Region

Author

Lucia Ragasová, Tomáš Kopta, Jan Winkler, Hana Šefrová, and Robert Pokluda

Subjects

biodiversity, Vitis vinifera L., habitat management, ecosystem service, plant species richness, cover crops, Agriculture

Abstract

Increasing vulnerability of crops to pests and diseases, problems with soil erosion, a decline in biodiversity and a number of other negative impacts caused by agricultural intensification and monocultural production have been the subjects of many studies in recent decades. Today, cover cropping has become a promising practice to defuse these negative impacts, and it is emerging in many wine-producing regions, including the Czech Republic. However, the importance of permanent natural and semi-natural habitats in agricultural production should not be neglected. In this study, the effect of adjacent non-crop vegetation on plant and insect diversity was evaluated. The highest plant species richness of inter-row vegetation was found in vineyards with a high proportion (>40%) of non-crop vegetation within a 500-m radius. Regarding the agricultural impact of inter-row vegetation, the high proportion of non-crop vegetation could have been related to the higher presence of opportunistic and non-harmful weeds, compared with the presence of dangerous weed species. The number of insect families present in inter-rows was probably affected more by the vegetation coverage rate than by the proportion of adjacent non-crop vegetation. However, the occurrence of the Hymenoptera species, often representing beneficial organisms, was related to localities with a high proportion of adjacent non-crop vegetation.

Published

2021

29. Dynamics of predatory and herbivorous insects at the farm scale: the role of cropped and noncropped habitats.

Author

Togni, Pedro H. B., Venzon, Madelaine, Souza, Lucas M., Sousa, Alex A. T. C., Harterreiten‐Souza, Érica S., Pires, Carmen S. S., and Sujii, Edison R.

Subjects

*HERBIVORES, *PREDATORY insects, *SCALE insects, *HABITATS, *PREDATOR management, *PLANT diversity, *CHEMICAL ecology, *TROPHIC cascades

Abstract

Natural enemy conservation is known to be affected by ecological processes that range from local to landscape scales. At the farm scale, there are cropped and noncropped areas that differ in their management and plant diversity; these differences affect the spatiotemporal dynamics of natural enemies.We investigated how different habitat types can affect the conservation and spatial dynamics of predatory and herbivore insects in organic vegetable crops in Brazil. Insects were simultaneously sampled in two cropped (focal and neighbourhood crops) and two noncropped habitats (fallow and native forests) during five consecutive focal crop cycles.We found a higher species richness of predators and herbivores in noncropped habitats. All of the habitats shared species from both functional groups throughout the year, indicating that species could disperse among habitats. Fallow areas can serve as a source and sink for species migrating to/from cropped habitats where predators and herbivores can numerically increase their populations during the crop cycles.The spatiotemporal dynamics of herbivores and predators depend on the management and maintenance of natural, seminatural and cropped habitats within the farm. [ABSTRACT FROM AUTHOR]

Published

2019

30. Theory and practice of utilizing biodiversity to enhance pest control in agroecosystems.

Author

YOU Shi-Jun, ZHANG Jie, LI Jin-Yu, CHEN Yan-Ting, LIU Tian-Sheng, NIU Dong-Sheng, and YOU Min-Sheng

Abstract

The effective utilization of biodiversity for sustainable development and conservation is a universal concern. In recent years, ecological pest management has become a hot topic at home and abroad because it can improve biodiversity and enhance ecosystem services through biological control in agroecosystems. This paper presents an overview of the progress and practice of rational utilization of biodiversity to enhance pest control, and future prospects for this approach, based on achievements in China and other countries. We first describe the basic concept of biodiversity and its association with integrated pest management, then introduce theoretical hypotheses on utilizing biodiversity to control crop pests (including the natural enemy, resource concentration, associational resistance, "push-pull", moderate complexity and landscape buffer, hypotheses. Finally, we provide an overview of the practical application of improving biodiversity to support pest control, focusing on some previously reported examples in China to reflect contributions made by Chinese entomologists. Given that modern agricultural intensification has increasingly led to the simplification of agroecosystems and a decline in biodiversity, we discuss in some detail the potential for facilitating both theoretical research and the practical application of biodiversity to further improve landscape level pest control. [ABSTRACT FROM AUTHOR]

Published

2019

31. Response of early-successional Bahamian dry forest habitat to goat grazing and implications for Kirtland's warbler (Setophaga kirtlandii) wintering ground management.

Author

FLEMING, GENIE M., EWERT, DAVID N., and WUNDERLE JR., JOSEPH M.

Subjects

KIRTLAND'S warbler, WINTERING of birds, TROPICAL dry forests, GRAZING, SETOPHAGA, BIODIVERSITY

Abstract

Limited financial resources coupled with competing social demands may require novel approaches for biodiversity conservation. Within the Bahamas archipelago, subtropical dry forest ("coppice") provides habitat for many resident and migratory bird species including the U.S. federally endangered Kirtland's warbler (Setophaga kirtlandii). On the islands, this migratory bird relies heavily on fruits of shrubs in early-successional coppice. Evidence indicates shrub species of particular importance in the bird's diet may not be generally widespread, while attempts to actively manage for these plant species could be cost-prohibitive or counterproductive to other conservation concerns. Because these shrubs and Kirtland's warblers have been frequently found on goat farms we investigated whether periodic goat grazing might be a practical tool for maintaining suitable coppice habitat in other semi-natural areas where late-successional coppice is unsupportable (e.g. utility rights-of-way) and whether it promotes increased abundance of important fruiting shrubs. In experiments conducted in young coppice within a pipeline corridor, we found little evidence that grazing would increase abundance of these shrubs, but our grazed coppice plots returned quickly to their pre-grazing state and exhibited few subsequent structural or compositional differences from ungrazed coppice plots. Thus, if appropriately applied and managed, goat grazing may serve as an economically viable tool for biodiversity preservation because (1) suitability as habitat for Kirtland's warblers and many other birds returns quickly after a short-term grazing treatment and (2) periodic, short-term grazing will forestall succession toward a vegetation type less appropriate for these birds or for certain types of human land use. [ABSTRACT FROM AUTHOR]

Published

2019

32. Caracterización de una finca de producción suburbana y elementos básicos a considerar para el manejo del hábitat.

Author

Hernández Triana, Vivian Rebeca, Pablo Roldán, Pedro, Ibargollin Cárpio, Félix, Ceballos, Margarita, and Martínez, María de los Ángeles

Subjects

*GLOBAL Positioning System, *BIODIVERSITY, *HABITATS

Abstract

This work was developed with the objective of providing the farmer with important elements for decision making and the implementation of actions that allow the transformation of the farm to a more sustainable system. The characterization of the agricultural space and the surrounding areas of the suburban farm "Las Piedras" belonging to the province of Havana, Cuba, was carried out. Tools of a Geographic Information System were used such as the Global Positioning System (GPS), aerial photography and thematic maps, among others, establishing as reference the total area of the farm, which included cultivated areas, buildings and adjoining areas. Farm biodiversity was determined using a scale that allowed classification of each biodiversity indicator. At the initial evaluation, the production system was also determined. The farm was classified as "moderately complex" based on the evaluated indicators of functional biodiversity, introduced functional biodiversity, and auxiliary biodiversity, which were well below the values that a highly complex farm can present. In general, the characterization carried out in the farm showed poor aspects such as insufficient use of rotations and crop associations, scarce application of biological controls, inappropriate disposition of the crops favoring the increase and propagation of common phytophagous species, areas deforested, lack of availability of floral resources for the refuge and feeding of natural enemies, and the need to replace fences and posts of living fences. These are aspects that constitute fundamental components of the recommendation for habitat management on the farm. [ABSTRACT FROM AUTHOR]

Published

2019

33. Living in an amphidromous world: Perspectives on the management of fish passage from an island nation.

Author

Franklin, Paul and Gee, Eleanor

Subjects

FISHWAYS, FISHERY management, HABITAT modification, FISH communities, FRESHWATER fishes, FISH ecology, FRESHWATER biodiversity

Abstract

Amphidromy is a form of migratory life history typified by the reproduction of fish in freshwater environments, the early downstream dispersal of post‐hatch larvae to marine environments, and the return of small‐bodied young juveniles to freshwater environments for growth to adulthood. Island freshwater fish communities are frequently dominated by fish species with amphidromous life histories.Amphidromous life cycles leave fish communities highly susceptible to habitat modification and disruptions to connectivity across marine and freshwater environments. This means that managing waterway connectivity is fundamental to their conservation; however, the unique and often geographically restricted amphidromous communities that characterize many small island nations have received little consideration in the development of strategies for the management of fish passage.The ecology and locomotory capabilities of amphidromous species are often poorly studied, partly because their small size at migratory life stages renders current state‐of‐the‐art in situ biotelemetry methods unsuitable. The small size of fish also means that seemingly small obstructions can severely impede migrations.The steps necessary to advance the management of fish passage for island fish communities are: curating and maintaining barrier inventories; evaluating barrier permeability; developing effective barrier mitigation options; and prioritizing restoration and conservation efforts.New methods for understanding the ecology and locomotory capabilities and behaviour of amphidromous fishes are required to advance the management of fish passage for island fish communities. Fish passage solutions that imitate natural streams, such as those promoted in new guidelines in New Zealand, may be the most effective way of improving waterway connectivity; however, integrated approaches to freshwater fish conservation that account for meta‐population dynamics, in combination with the management of fish passage, are necessary to optimize conservation outcomes for amphidromous species. [ABSTRACT FROM AUTHOR]

Published

2019

34. How Euphydryas maturna survived extinction in the Czech Republic: status of a relic population after intensive conservation management.

Author

Vrabec, Vladimír, Bubová, Terezie, Kulma, Martin, Krása, Antonín, and Nowicki, Piotr

Subjects

EUPHYDRYAS, WILDLIFE conservation, FOREST management, ENDANGERED species, BIODIVERSITY

Abstract

In the Czech Republic, the scarce fritillary (Euphydryas maturna) had been considered extinct until the rediscovery of an extant population in Dománovický les, Central Bohemia. Subsequent efforts to protect the locality were thwarted by disputes between landowners and researchers. In 2010, when the population size was reaching critically low levels, appropriate management was finally established at the locality. To evaluate the current status of the population, an intensive mark-release-recapture study was conducted in the area in 2016 and 2017, comprising several hundreds captured individuals. The total population size was estimated at 764 butterflies for 2016 and 518 butterflies for 2017. In comparison with the pilot study performed in 2002, the population size was slightly higher, but the dispersal rates were lower. These results indicate that Euphydryas maturna in the Czech Republic has managed to bounce back from a critical population size. On the other hand, the risk of extinction has not been averted due to continued habitat loss and stochastic environmental effects. Management efforts should aim to expand the habitats used by the breeding populations, at present predominantly confined to temporary forest clearings and to open canopy forest with low tree density. Moreover, assisted reintroductions of this only surviving population to the surrounding areas should be considered. [ABSTRACT FROM AUTHOR]

Published

2019

35. Quantifying the links between land use and population growth rate in a declining farmland bird.

Author

Paquet, Matthieu, Arlt, Debora, Knape, Jonas, Low, Matthew, Forslund, Pär, and Pärt, Tomas

Subjects

*HABITAT selection, *BIRD breeding, *POPULATION dynamics, *BIODIVERSITY, *POPULATION

Abstract

Land use is likely to be a key driver of population dynamics of species inhabiting anthropogenic landscapes, such as farmlands. Understanding the relationships between land use and variation in population growth rates is therefore critical for the management of many farmland species. Using 24 years of data of a declining farmland bird in an integrated population model, we examined how spatiotemporal variation in land use (defined as habitats with "Short" and "Tall" ground vegetation during the breeding season) and habitat‐specific demographic parameters relates to variation in population growth taking into account individual movements between habitats. We also evaluated contributions to population growth using transient life table response experiments which gives information on contribution of past variation of parameters and real‐time elasticities which suggests future scenarios to change growth rates. LTRE analyses revealed a clear contribution of Short habitats to the annual variation in population growth rate that was mostly due to fledgling recruitment, whereas there was no evidence for a contribution of Tall habitats. Only 18% of the variation in population growth was explained by the modeled local demography, the remaining variation being explained by apparent immigration (i.e., the residual variation). We discuss potential biological and methodological reasons for high contributions of apparent immigration in open populations. In line with LTRE analysis, real‐time elasticity analysis revealed that demographic parameters linked to Short habitats had a stronger potential to influence population growth rate than those of Tall habitats. Most particularly, an increase of the proportion of Short sites occupied by Old breeders could have a distinct positive impact on population growth. High‐quality Short habitats such as grazed pastures have been declining in southern Sweden. Converting low‐quality to high‐quality habitats could therefore change the present negative population trend of this, and other species with similar habitat requirements. We examined how spatiotemporal variation in land use and habitat‐specific demographic parameters relates to variation in population using an integrated population model. Transient LTRE analyses suggest a clear contribution of habitats with Short ground vegetation to the past variation in population growth rate. Real‐time elasticity analysis revealed that an increase of proportion of Short habitats occupied could have a distinct positive impact on population growth. Converting low‐quality to high‐quality habitats could therefore change the present negative population trend of this, and other species with similar habitat requirements. [ABSTRACT FROM AUTHOR]

Published

2019

36. Plant Species Richness Controls Arthropod Food Web: Evidence From an Experimental Model System.

Author

Zhao, Zi-Hua, Hui, Cang, Reddy, Gadi V P, Ouyang, Fang, Men, Xing-Yuan, and Ge, Feng

Subjects

*ARTHROPODA, *FOOD chains, *PLANT species, *ECOSYSTEMS, *POLLINATION

Abstract

The effects of plant species richness on the function and stability of ecosystems have been an area of focus in recent decades. Arthropod community is one of the most important components in agroecosystems and can provide multiple ecosystem services, including biocontrol and pollination. In particular, species composition and biocontrol function can be sensitive to changes in plant species richness. Here, we designed 50 plots with five levels of plant species richness to examine arthropod distribution and composition over 4 yr. Arthropod richness was found to be positively correlated with plant species richness. High plant species richness can enhance the temporal stability of the arthropod community but can also lead to a decline in the population stability of some species. The species richness and biomass of environmentally friendly insects (EFI), such as honeybees, ants and flies, were found to be positively correlated with those of the natural enemies. As such, high levels of EFI could sustain food web robustness by serving as alternative prey/hosts for natural enemies. The mediation of EFI in the interaction between crops and pests has implications for successful biocontrol practices using natural enemies. Planting diverse plant species with a certain level of spatial turnover could benefit the biocontrol function of natural enemies and safeguard multiple ecosystem services. [ABSTRACT FROM AUTHOR]

Published

2019

37. Out of sight, out of mind? Testing the effects of overwinter habitat alterations on breeding territories of a migratory endangered species.

Author

Morant, J., Zabala, J., Martínez, J. E., and Zuberogoitia, I.

Subjects

*BIRD breeding, *BIRD habitats, *BIRD ecology, *ENDANGERED species, *EGYPTIAN vulture, *BIODIVERSITY

Abstract

Anthropogenic activities are one of the main threats to species living in human‐dominated landscapes and can promote behavioral changes in birds. This paper presents a novel approach to test how a migratory species responds to habitat alterations occurring in nesting territories during winter, when the species is absent. From 2000 to 2016, we collated territory and nest monitoring data for the endangered Egyptian vulture Neophron percnopterus in the north of Spain, to test the effects of overwinter habitat alterations (OHA) around breeding territories on the species reproductive output. We monitored 70 different nest sites and observed OHA around the nesting area in 39 cases. Probability of switching to another nesting site almost tripled after OHA. Pairs that switched experienced substantially decreased breeding success and avoided reusing the nest for 4.8 ± 4.64 years. The presence of determinate landscape elements that provide screening, such as forest patches, increased nest reoccupancy probability after OHA by more than 0.3, to 0. 55 (compared to 0.24 when no screening was present). We also found that the distance and the situation of the OHA were critical factors explaining reproduction probabilities at nest sites. Our results demonstrate how OHA can strongly impact the breeding behavior of long‐lived species. This highlights the need to examine the long‐term impact of OHA rather than focusing only on disturbances during sensitive periods, as is often the case with habitual mitigation measures. Anthropogenic activities are one of the main threats to species living in human‐dominated landscapes and can promote behavioural changes in birds. We found that overwinter habitat alterations (OHA), mainly forestry activities, around the nest sites increase habitual nest abandonment probability respecting to those which did not suffer OHA and, in a second step, the situation of OHA reduce reproduction probability and ultimately, productivity of those pairs which switched nest. Therefore it is necessary to adopt management measures that guarantee the persistence (i.e. use of forest patches which act as a screen between OHA and nest site increase reoccupancy probability) and reproduction of species (i.e. avoiding those OHA located in front of the nest sites). [ABSTRACT FROM AUTHOR]

Published

2018

38. Organic Farming History and Techniques

Author

Behera, Kambaska Kumar, Alam, Afroz, Vats, Sharad, Sharma, Hunuman Pd., Sharma, Vinay, and Lichtfouse, Eric, editor

Published

2012

39. Land use changes could modify future negative effects of climate change on old‐growth forest indicator species.

Author

Mair, Louise, Jönsson, Mari, Räty, Minna, Bärring, Lars, Strandberg, Gustav, Lämås, Tomas, Snäll, Tord, and Visconti, Piero

Subjects

*LAND use, *BIODIVERSITY, *CLIMATE change, *ECOLOGICAL impact, *SPECIES distribution

Abstract

Aim: Climate change is expected to have major impacts on terrestrial biodiversity at all ecosystem levels, including reductions in species‐level distribution and abundance. We aim to test the extent to which land use management, such as setting‐aside forest from production, could reduce climate‐induced biodiversity impacts for specialist species over large geographical gradients. Location: Sweden. Methods: We applied ensembles of species distribution models based on citizen science data for six species of red‐listed old‐forest indicator fungi confined to spruce dead wood. We tested the effect on species habitat suitabilities of alternative climate change scenarios and varying amounts of forest set‐aside from production over the coming century. Results: With 3.6% of forest area set‐aside from production and assuming no climate change, overall habitat suitabilities for all six species were projected to increase in response to maturing spruce in set‐aside forest. However, overall habitat suitabilities for all six species were projected to decline under climate change scenario RCP4.5 (intermediate–low emissions), with even greater declines projected under RCP 8.5 (high emissions). Increasing the amount of forest set‐aside to 16% resulted in significant increases in overall habitat suitability, with one species showing an increase. A further increase to 32% forest set‐aside resulted in considerably more positive trends, with three of six species increasing. Main conclusions: There is interspecific variation in the importance of future macroclimate and resource availability on species occurrence. However, large‐scale conservation measures, such as increasing resource availability through setting aside forest from production, could reduce future negative effects from climate change, and early investment in conservation is likely to reduce the future negative impacts of climate change on specialist species. [ABSTRACT FROM AUTHOR]

Published

2018

40. Effects of Seasonality, Forest Structure, and Understory Plant Richness on Bee Community Assemblage in a Southern Rocky Mountain Mixed Conifer Forest.

Author

Rhoades, Paul R, Davis, Thomas S, Tinkham, Wade T, and Hoffman, Chad M

Subjects

*BEE ecology, *SPECIES diversity, *SEASONAL physiological variations, *CONIFEROUS forests, *BEE behavior, *INSECT population density, *INSECTS

Abstract

Wild bee community assemblages were surveyed in a high-elevation mixed conifer forest in central Colorado at multiple points during the growing season (April–August) and across a range of forest stand densities using blue vane traps. Understory forb communities were also characterized and related to bee species abundance and diversity. Overall γ-diversity was characterized by 19 genera of bees captured representing five families (Andrenidae, Apidae, Colletidae, Halictidae, and Megachilidae) and 39 unique species. Seasonal variation in abundance and community composition was considerable with early-season (April) communities dominated by Osmia spp. and midsummer (June–July) communities dominated by Bombus spp. Bee abundance and α-diversity were on average 88 and 74% higher in midsummer than in early- and late season. Forest basal area was negatively correlated with bee α-diversity and abundance, as well as understory plant species richness. Trapping locations with a stand basal area of ≤7.5 m2/ha exhibited approximately 54% higher bee abundances and 44% higher α-diversity than locations with ≥20.0 m2/ha of basal area. Bee α-diversity and abundance positively correlated with understory species richness suggesting that forested sites with low basal area, likely corresponding to overstory canopy gaps and increased site occupancy by forbaceous species, may drive local abundance and diversity of wild bee assemblages. This study provides basal area threshold values in a mixed conifer forest type that may be useful for resource management practitioners concerned with creating or conserving pollinator habitats. [ABSTRACT FROM AUTHOR]

Published

2018

41. Perennial fallow strips support biological pest control in spring cereal in Northern Europe.

Author

Toivonen, Marjaana, Huusela-Veistola, Erja, and Herzon, Irina

Subjects

*BIOLOGICAL pest control, *BIODIVERSITY, *APHIDS, *WILD flowers

Abstract

Fallow strips are promoted through agri-climate-environment schemes to enhance farmland biodiversity, but their effects on biodiversity-mediated ecosystem services remain poorly studied in different cropping systems. The effects of fallow strips on biological control of bird cherry-oat aphids in spring barley were examined in a field experiment in Finland in 2014–2016. Two types of sown perennial fallow strips – grass strip and wildflower strip – were compared. The relative efficiency of biological pest control was tested by monitoring the number of experimentally added aphids in the fallow strips and in the adjacent barley fields at different distances from the strips. Data were also collected on the densities of naturally occurring aphids and ground-dwelling natural enemies. The effects of the fallow strips differed between years. When aphid pressure was high, the proximity of the strips slowed the growth of aphid population. In the year of low aphid abundance, the fallow strips sustained more aphids than the adjacent barley fields, but did not constitute a risk for pest control. In the second and third years, especially wildflower strips supported high activity density of ground-dwelling predators. The activity densities were particularly high in the both fallow strip types in early summer, highlighting the role of the perennial strips as refuges for natural enemies. The results suggest that perennial fallow strips, and especially those sown with diverse wildflower mixtures, can promote pest control in spring cereals, thus contributing to ecological intensification in agriculture. [ABSTRACT FROM AUTHOR]

Published

2018

42. Linking pipefishes and seahorses to seagrass meadows in the Venice lagoon: Implications for conservation.

Author

Scapin, Luca, Cavraro, Francesco, Malavasi, Stefano, Riccato, Federico, Zucchetta, Matteo, and Franzoi, Piero

Subjects

SEAGRASS restoration, BIODIVERSITY, ECOSYSTEMS, LAGOONS, HABITATS

Abstract

Abstract: Seagrass meadow degradation and loss is one of the major threats to fish biodiversity in coastal marine and lagoon ecosystems in the Mediterranean. Pipefishes and seahorses (family Syngnathidae) are particularly affected by loss of seagrass meadows and other structured habitats, on which they rely for survival and reproduction. Despite their charismatic appearance and peculiar behaviour, their habitat ecology is still poorly understood in Mediterranean coastal waters. This study focuses on syngnathid assemblage composition and diversity in the shallow waters of the Venice lagoon (Italy), aiming at highlighting habitat preferences and providing insights into the conservation of biodiversity in these ecosystems. Generalized Additive Models were used in order to disentangle the potential effect of habitat typologies and different architectures of seagrass meadows from that of other environmental parameters. Most abundant taxa and whole syngnathid assemblage indicators were positively associated with seagrass meadows. Only few species, however, were seagrass specialists in shallow waters, and preferred meadows with taller canopies. Despite that, other structured habitats including short‐leaved seagrass meadows and macroalgal beds were important for some species and overall assemblage diversity. Managers in Mediterranean coastal lagoons should thus limit human pressures that lead to the depletion of seagrass meadows, with particular attention to long‐ and broad‐leaved species in less confined areas. Nevertheless, syngnathid assemblages would benefit from the preservation and restoration of the overall habitat diversity characterizing shallow waters in coastal lagoon. Future studies should aim at investigating the potential role of habitats at greater depths in supporting syngnathids. [ABSTRACT FROM AUTHOR]

Published

2018

43. Crop Protection, Biological Control, Habitat Management and Integrated Farming

Author

Ferron, Pierre, Deguine, Jean-Philippe, Lichtfouse, Eric, editor, Navarrete, Mireille, editor, Debaeke, Philippe, editor, Véronique, Souchere, editor, and Alberola, Caroline, editor

Published

2009

44. Consistent oviposition preferences of the Duke of Burgundy butterfly over 14 years on a chalk grassland reserve in Bedfordshire, UK

Author

GE Hitchcock, Edgar C. Turner, Colin Lucas, Andrew J. Bladon, M P Hayes, RI Knock, E Ashe-Jepson, Hayes, MP [0000-0001-5200-9259], and Apollo - University of Cambridge Repository

Subjects

Habitat management, geography, Original Paper, Butterfly, geography.geographical_feature_category, Ecology, biology, Calcareous grassland, Oviposition, Microclimate, Biodiversity, biology.organism_classification, Grassland, Habitat, Animal ecology, Insect Science, Climate change, Animal Science and Zoology, Hamearis lucina, Nature and Landscape Conservation

Abstract

Abstract The Duke of Burgundy butterfly (Hamearis lucina) is known to have specific habitat requirements for its larval foodplants. However, no studies have yet investigated whether these preferences vary over time or in relation to climate, and there is a paucity of data on whether management on reserves can replicate preferred conditions. Here, we build upon existing research to confirm which characteristics Duke of Burgundy prefer for their larval foodplants, whether preferences remain consistent across years, and whether conservation management on reserves can replicate these conditions. Fieldwork was carried out at Totternhoe Quarry Reserve, a chalk grassland site in Bedfordshire, UK. Confirming previous research, we found that large Primula plants in dense patches were chosen for oviposition, but that once chosen there was no preference to lay eggs on a plant’s largest leaf. Chosen foodplants were also more sheltered and in closer proximity to scrub than their controls. However, at a finer scale, we found little evidence for any preference based on differences in microclimate, or vegetation height immediately surrounding the plants. This suggests features that alter microclimatic conditions at a larger scale are relatively more important for determining the suitability of oviposition sites. Nearly all preferences remained consistent over time and did not vary between years. Management of scrub on the reserve was able to reproduce some preferred habitat features (high plant density), but not others (large plant size). Implications for insect conservation The consistency of findings across years, despite inter-annual variation in temperature, rainfall and number of adults, indicates that the Duke of Burgundy is conservative in its foodplant choice, highlighting its need for specific habitat management. Targeted management for foodplants could form part of a tractable set of tools to support Duke of Burgundy numbers on reserves, but a careful balance is needed to avoid scrub clearance leaving plants in sub-optimal conditions.

Published

2021

45. Impact of habitat management on waterbirds in a degraded coastal wetland.

Author

Wei, Pingping, Zan, Qijie, Tam, Nora F.y., Shin, Paul K.s., Cheung, S.G., and Li, Mingguang

Subjects

HABITATS, WATER bird ecology, BIODIVERSITY, MIBU Ziran Baohuqu (China), COASTAL wetlands, MANAGEMENT

Abstract

The loss of coastal wetlands in Hong Kong Mai Po Nature Reserve adversely affected wetland-depended species. To mitigate this impact, gei wai ponds were reconstructed according to a set of biodiversity management zones (BMZs). This study, based on Canonical Correspondence Analysis (CCA), investigated if waterbird distribution was related to BMZ characteristics. Based on habitat characteristics, ponds in the same BMZ generally clumped in the same quadrant or within a short distance on CCA scatter plots, indicating that a BMZ zone produced common habitat traits. Ponds in a close distance on the plot had similar bird abundance or community structure. Significant correlations were noted between the abundance of cormorants and tall tree, and between waders and bare ground areas within study ponds. This study indicated that the control of key habitat factors was important for the success of reconstruction of gei wai s and management of waterbirds in Mai Po. [ABSTRACT FROM AUTHOR]

Published

2017

46. When good animals love bad restored habitats: how maladaptive habitat selection can constrain restoration.

Author

Hale, Robin, Swearer, Stephen E., and Hayward, Matt

Subjects

*RESTORATION ecology, *APPLIED ecology, *BIODIVERSITY, *BIOCOMPLEXITY, *HABITATS

Abstract

Restoration is increasingly undertaken to ameliorate the risks of habitat loss and transformation to biodiversity. Despite significant expenditure of time and resources world-wide, restored habitats commonly fail to achieve these objectives., Restoration could fail because animals either avoid restored habitats (perceptual traps) or prefer restored habitats where their fitness is reduced (ecological traps). Consequently, restoration may have a neutral impact or more worryingly provide an additional risk to population persistence. Whether traps arise as an unintended consequence of restoration has largely been unexplored., Our aim is to highlight how traps can compromise restoration efforts and propose ways to reduce this possibility. We first highlight five criteria for successful habitat restoration to identify how and where ecological and perceptual traps could arise and use case studies to demonstrate some of the diverse ways restoration could cause traps. Managing traps that form via restoration depends on reinstating the links between habitat quality and preference. We suggest resource-based habitat approaches, which consider what represents functional habitats from the perspective of animals, are a potentially useful tool in this regard. Furthermore, cognitive theory may help to improve our understanding of how animals select habitats and to address problematic behaviours as they arise., Synthesis and applications. Restoration will fail if habitat quality and preference are not strongly linked, but this possibility has received limited attention. Our review will help ensure that restored habitats provide the resources required by animals, and that animals assess and respond to these habitats adaptively. We hope to stimulate further discussion between evolutionary, behavioural and restoration ecologists to improve the success of habitat restoration. [ABSTRACT FROM AUTHOR]

Published

2017

47. Increased pollinator habitat enhances cacao fruit set and predator conservation.

Author

Forbes, Samantha J. and Northfield, Tobin D.

Subjects

POLLINATORS, AGROBIODIVERSITY, WILDLIFE conservation, CROP yields, CACAO

Abstract

The unique benefits of wild pollinators to the productivity of agricultural crops have become increasingly recognized in recent decades. However, declines in populations of wild pollinator species, largely driven by the conversion of natural habitat to agricultural land and broad-spectrum pesticide use often lead reductions in the provision of pollination services and crop production. With growing evidence that targeted pollinator conservation improves crop yield and/or quality, particularly for pollination specialist crops, efforts are increasing to substitute agriculturally intensive practices with those that alleviate some of the negative impacts of agriculture on pollinators and the pollination services they provide, in part through the provision of suitable pollinator habitat. Further, similarities between the responses of some pollinators and predators to habitat management suggest that efforts to conserve pollinators may also encourage predator densities. We evaluated the effects of one habitat management practice, the addition of cacao fruit husks to a monoculture cacao farm, on the provision of pollination services and the densities of two groups of entomophagous predators. We also evaluated the impacts of cacao fruit husk addition on pollen limitation, by crossing this habitat manipulation with pollen supplementation treatments. The addition of cacao fruit husks increased the number of fruits per tree and along with hand pollination treatments, increased final yields indicating a promotion of the pollination ecosystem service provided by the specialist pollinators, midges. We also found that cacao fruit husk addition increased the densities of two predator groups, spiders and skinks. Further, the conservation of these predators did not inhibit pollination through pollinator capture or deterrence. The findings show that, with moderate habitat management, both pollinator and predator conservation can be compatible goals within a highly specialized plant-pollinator system. The effectiveness of this habitat manipulation may be attributable to the increased availability of alternative habitat and food resources for both pollinators and predators. The results exemplify a win-win relationship between agricultural production and biological conservation, whereby agricultural practices to support vital pollinators and pollination services can increase production as well as support species conservation. [ABSTRACT FROM AUTHOR]

Published

2017

48. Importance of ground refuges for the biodiversity in agricultural hedgerows.

Author

Lecq, S., Loisel, A., Brischoux, F., Mullin, S.J., and Bonnet, X.

Subjects

*WINDBREAKS, shelterbelts, etc., *BIODIVERSITY, *LANDSCAPES, *ANIMAL diversity, *BODY mass index

Abstract

In most agro-ecosystems, hedgerows provide important habitat for many species. Unfortunately, large scale destruction of hedges has stripped this structure from many landscapes. Replanting programs have attempted to restore hedgerow habitats, but the methods employed often fail to replace the unique microhabitats (complex matrix of stones, logs and roots found along the base of the hedge) that provided key refuges to an array of animal species. We examined the influence of ground refuges on animal diversity in an agricultural landscape. We used non-lethal rapid biodiversity assessments to sample invertebrate and vertebrate taxa in 69 hedges having different levels of herbaceous cover, tree cover, and refuge availability. Co-inertia analyses compared hedge characteristics with the animal biodiversity sampled. We also used a functional index (accounting for body mass, trophic level, and metabolic mode of the species sampled) to compare hedges. In addition, large sedentary predators (e.g. snakes) were used as indicators of shelter presence/quality and as bio-indicators of food web structures. Finally we used unbiased Chao-estimates to evaluate species richness. All results were convergent and show that complexity of the base of the hedge (e.g., bank size and stone abundance) positively influenced biodiversity and predator abundance. Guidelines to restore hedgerows should integrate refuges that can be constructed by retaining the materials that are extracted during the planting of the hedges. [ABSTRACT FROM AUTHOR]

Published

2017

49. Landscape and Local Habitat Correlates of Lady Beetle Abundance and Species Richness in Urban Agriculture.

Author

Egerer, M. H., Bichier, P., and Philpott, S. M.

Subjects

*LADYBUGS, *INSECT behavior, *BIODIVERSITY, *HABITATS, *SPECIES diversity, *MANAGEMENT

Abstract

Landscape surroundings and local habitat management affect patterns of insect biodiversity. Knowing which landscape and local factors are more important for insect species diversity informs landscape and local scale land management, yet can be challenging to disentangle. We sought to identify 1) which landscape factors surrounding, and 2) which local habitat factors within urban community gardens influence patterns in lady beetle (Coccinellidae) abundance and species richness. We assessed lady beetle abundance and taxonomic diversity, garden habitat characteristics, and the surrounding landscape composition in 19 gardens over two consecutive years. We found that the amount of natural area surrounding gardens at 3 km was the strongest correlate of abundance and species richness. Specifically, gardens surrounded by less natural area (gardens embedded in more urban landscapes) had higher lady beetle abundance and richness. In gardens embedded in landscapes with more amounts of natural land, local habitat features such as ornamental abundance and crop diversity may become more important for maintaining lady beetle abundance and richness. Our results suggest that within more urban landscapes, lady beetles may aggregate and accumulate in relatively resource-rich habitats like gardens. Thus, urban landscape quality and local habitat management may all interact to shape lady beetle communities within gardens. [ABSTRACT FROM AUTHOR]

Published

2017

50. What evidence exists on the impact of agricultural practices in fruit orchards on biodiversity? A systematic map

Author

Philippe Jeanneret, Markus van der Meer, Gisela Lüscher, and Sonja Kay

Subjects

0106 biological sciences, SALCA-biodiversity, Forest management, Natural enemies, Biodiversity, Context (language use), 010501 environmental sciences, Management, Monitoring, Policy and Law, 010603 evolutionary biology, 01 natural sciences, Scientific evidence, Global issue, lcsh:Environmental sciences, 0105 earth and related environmental sciences, Arboriculture, Habitat management, lcsh:GE1-350, Ecology, Descriptive statistics, business.industry, Environmental resource management, Pollution, Geography, Agriculture, Orchard, Management system, business, Obstbau

Abstract

Background Biodiversity loss, partly due to intensification of agriculture, has become a global issue. In this context, fruit producers have been looking for nature-friendly production methods. By reducing intensive pesticide use and enhancing orchard management, they aim to create habitats suitable for beneficial organisms. Fruit production, especially in low-stem orchards, requires several interventions (plant protection, tillage, greenwork) throughout the year, each of them representing a disturbance. Thus, an expert system that evaluates and aggregates the impact of individual farming activities on a set of biodiversity indicators would be a valuable tool for developing new, less biodiversity-damaging scenarios. This expert system should be based on expert knowledge and scientific evidence. Surprisingly, our literature searches suggested that international journals contain few publications on the impact of most practices (except pesticide use) in orchards on biodiversity in general and beneficial organisms in particular. However, in the last decade, an increasing number of published articles have pointed out the rising importance of biodiversity in life cycle assessment. We therefore compiled and structured the available evidence to (1) assess the state of research on discrete biodiversity indicators and agricultural practices, (2) identify the literature relevant for assessing production impact and habitat suitability for supporting biodiversity and (3) provide a wide-ranging overview of existing evidence of the impact of agricultural practices in fruit orchards on biodiversity. Methods A systematic literature search was performed in scientific journals, agronomy magazines and across the internet in English, German and French. The main reviewer followed a step-by-step eligibility scheme that was validated by a Kappa test between two reviewers. Additionally, a third reviewer checked a subset of articles. We mapped a large range of parameters, which were structured in code sets. To compute a study validity assessment, we used 13 parameters that reflected the relevance of each article to the impact of agricultural practices in fruit orchards on biodiversity indicator species groups. Results The search returned 947 included articles. The map identified major differences in the attention given to different indicators and practices over time, ranging from closely investigated (clusters) to neglected (gaps)—e.g. spiders and birds or amphibians and reptiles, respectively. The majority of studies were short-term surveys, mainly done in low-stem orchards. Main areas studied were Western Europe and Eastern North America. The resulting database is presented along with descriptive statistics of the distribution and abundance of evidence across time, interventions and outcomes. Conclusions The current systematic map reveals that rigorous and comprehensive investigations on the suitability of orchards as perennial habitats for wildlife, run on the long-term and following a holistic approach, are still basically lacking. Although evidence base on orchard management effects on particular organisms has grown over the past two decades, information to develop reliable close-to-nature management tools and strategies is insufficient. The implications for policy and research suggest that—in view of worldwide biodiversity loss, which may cause a major threat for food production—a better understanding of the role played by orchards and their management in agricultural landscapes for biodiversity is required.

Published

2020