Your search keyword '"soil fauna"' showing total 3,452 results

1. Ground beetle trophic interactions alter available nitrogen in forest soil.

Author

Lienau, Janey R., Duguid, Marlyse C., and Schmitz, Oswald J.

Subjects

*SOIL animals, *GROUND beetles, *NITROGEN in soils, *TEMPERATE forests, *OLD growth forests

Abstract

It is generally held that microbes exert primary control over nitrogen availability in temperate forests. Yet the role of soil and litter‐dwelling invertebrates to provide additional control via the breakdown of organic matter is an area of current exploration. Through trophic interactions within soil food webs, predators may indirectly affect prey with cascading effects on litter breakdown and nitrogen availability. The importance of these interactions, however, may be context‐dependent, varying with the stage of forest development and associated decomposer species composition given that young and old forests have vast differences in nitrogen availability, vegetation litter, soil properties and invertebrate functional groups. We examined ground beetle control over soil nitrogen and soil properties using a 68‐day mesocosm experiment that manipulated trophic structure (omnivore + predator beetles, predator beetles, and no beetles) in a young and old forest stand in the northeastern United States. In the young forest, net nitrogen mineralization decreased under predator + omnivore and the bulk soil C:N ratio in the old forest. However, we found no response in either forest context to the predator only treatment. Our study demonstrates the potential for ground beetles to strongly impact nitrogen availability and soil properties in forest ecosystems. Therefore, animal trophic interactions and their contexts must be included in our paradigm of nutrient cycles in temperate forests. [ABSTRACT FROM AUTHOR]

Published

2024

2. Microarthropod responses to fire: vegetation cover modulates impacts on Collembola and Acari assemblages in Mediterranean area.

Author

Santorufo, Lucia, Memoli, Valeria, Monica, Zizolfi, Santini, Giorgia, Di Natale, Gabriella, Trifuoggi, Marco, Barile, Rossella, De Marco, Anna, and Maisto, Giulia

Subjects

GROUND cover plants, SOIL animals, SOIL biodiversity, BLACK locust, SOIL ecology

Abstract

Copyright of Fire Ecology is the property of Springer Nature and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

3. Soil biodiversity and ecological intensification for sustainable agriculture.

Author

Erktan, Amandine, Blanchart, Eric, Pulleman, Mirjam, and Trap, Jean

Abstract

Soil biodiversity is pivotal for ecological intensification of agriculture by enhancing soil functions, sustainable crop production and resilience to environmental shocks and disturbances. However, a detailed understanding of mechanisms in field conditions to inform ecological intensification strategies based on the beneficial effects of soil biodiversity on soil functions remains to be established. This special issue gathers thirteen original studies investigating the influence of soil biodiversity (bacteria, fungi, nematodes, collembolans, earthworms, and plant roots) on soil functions, namely soil C transformation and nutrient cycling, soil structure maintenance, biological pest regulation, water regulation and metal contaminant mitigation. Whether in field or microcosms conditions, most articles in this special issue focus on how agroecological practices impact the nexus between soil biodiversity-soil functioning and sustainable crop production (soil/crop management). The issue notably covers the effect of varietal selection and their diversity, crop diversification in time and in space, reduced tillage, and organic residue management over short (few weeks) and long-term (> 10 years) periods. Key insights revealed that the abundance of specific species/groups was the main driver of soil functions, while organism diversity influenced soil multifunctionality. Main research gaps highlighted include limited consideration of temporal variations (long or short term), the links between soil water regulation and soil biodiversity, better consideration of trophic interactions, and the need to define a common approach to measure and model the concomitant effects of soil biodiversity on multiple soil functions in partnership with farmers. [ABSTRACT FROM AUTHOR]

Published

2024

4. Ecological succession shapes size–density scaling relationships of trees and soil invertebrates.

Author

Romera, Poppy Joaquina, Wallace, Kiri Joy, McCarthy, James K., Rai, Bibishan, Mitchell, Grace, Eisenhauer, Nico, Lusk, Christopher H., and Barnes, Andrew D.

Subjects

*ECOLOGICAL succession, *INVERTEBRATE communities, *SOIL animals, *SECONDARY forests, *SOIL invertebrates, *FOREST succession

Abstract

The widely observed negative scaling relationship between organism size and abundance is predicted to have a universal −0.75 scaling exponent across all life forms. However, factors influencing frequently observed deviations from this exponent, such as ecosystem succession and organism traits, remain poorly understood.We explore the dependence of size–density scaling on ecosystem succession and organism traits by analysing size–density relationships in trees and soil invertebrates across 183 temperate forest plots comprising urban secondary forests, urban old‐growth forests and non‐urban natural forests.Exponents of scaling relationships in urban tree and invertebrate communities progressively steepened with increasing restored (planted) forest stand age as small organisms increased in abundance. In contrast, non‐urban tree scaling relationships flattened during succession with exponents veering away from −0.75, whereas urban tree and invertebrate communities converged towards this prediction in later successional stages.Our results shed light on how the body size structure of tree and soil invertebrate communities spanning multiple trophic levels shift over successional time as the relative abundances of large versus small‐bodied organisms increase. This study emphasises the fundamental influence of organismal traits and ecosystem succession on scaling relationships of organism body size and abundance. Read the free Plain Language Summary for this article on the Journal blog. [ABSTRACT FROM AUTHOR]

Published

2024

5. Environmental role of different‐aged pine and oak stands growing on post‐agricultural and forest lands in forming the Mesostigmata mites communities.

Author

Malica, Jacek, Urbanowski, Cezary K., Turczański, Krzysztof, Rączka, Grzegorz, Andrzejewska, Agnieszka, Skorupski, Maciej, and Kamczyc, Jacek

Subjects

ENVIRONMENTAL history, FORESTS & forestry, SOIL animals, FOREST succession, FOREST soils

Abstract

Reclamation of agricultural soil and forest succession after afforestation proceeds slowly and at many levels. Therefore, the history of land use is recorded in the soil's physical, chemical and ecological parameters for many decades. This process depends on time and the form of afforestation, which primarily includes tree species. In our study, we analyzed differences in the physical and chemical characteristics of pine and oak stands on forest and post‐agricultural land at 22, 42 and 62 y/o. Our study revealed that 14 of 24 examined parameters (litter pH, soil pH, litter thickness, soil organic matter, Corg, bulk density, C/N ratio, soil moisture, soil K, Mg and Mn content, N and Ca litter content, Mg litter content) differed significantly among examined habitats (land use, stand age and tree species). We calculated the abundance, species richness and diversity of the mite communities (Acari, Mesostigmata) for each habitat type. In total, 6730 mites were classified into 72 taxa (60 species, 11 genera and one taxon as family). The highest abundance was recorded in 42 y/o. oak stands on post‐agricultural land, while the lowest is in 22 y/o. pine and oak stands on post‐agricultural land. The highest species richness and diversity were recorded in the oldest oak stand on post‐agricultural land. In contrast, the lowest diversity was recorded in the youngest oak and pine stands on post‐agricultural land. Our results demonstrate that the negative impact of the agricultural history of land use weakens over time and provides a better understanding of land use history on the relations between the soil environment and soil fauna, including mesostigmatid mite assemblages. [ABSTRACT FROM AUTHOR]

Published

2024

6. The influence of forest types including native and non‐native tree species on soil macrofauna depends on site conditions.

Author

Wenglein, Ronja, Lu, Jing‐Zhong, and Scheu, Stefan

Subjects

*ANIMAL communities, *EUROPEAN beech, *STABLE isotope analysis, *TEMPERATE forest ecology, *DECIDUOUS plants, *ALNUS glutinosa

Abstract

The ongoing climate change calls for managing forest ecosystems in temperate regions toward more drought‐resistant and climate‐resilient stands. Yet ecological consequences of management options such as planting non‐native tree species and mixing coniferous and deciduous tree species have been little studied, especially on soil animal communities, key in litter decomposition and pest control. Here, we investigated the taxonomic and trophic structure of soil macrofauna communities in five forest types including native European beech (Fagus sylvatica), range‐expanding Norway spruce (Picea abies) and non‐native Douglas fir (Pseudotsuga menziesii) as well as conifer‐beech mixtures across loamy and sandy sites in northern Germany. Abundance of primary decomposers (feeding predominantly on litter) was high in Douglas fir and beech forests, benefiting from less acidic soil and more favorable litter resources compared to spruce forests, while secondary decomposers (feeding predominantly on microorganisms and microbial residues) reached highest densities in spruce forests. Differences in abundance and species richness among forest types generally varied between regions and were most pronounced in Douglas fir of the sandy region. However, trophic guilds differed more between regions than between forest types, indicating that environmental factors outweigh the importance of forest type on soil macrofauna communities. The analysis of stable isotopes (δ15N and δ13C values) supported the general robustness in trophic position of macrofauna trophic guilds against variations in forest types and regions, but indicated reduced detrital shifts and food‐chain lengths in coniferous compared to European beech forests with mixtures mitigating these effects. Overall, for evaluating consequences of future forest management practices on the structure and functioning of soil animal communities, regional factors need to be considered, but in particular at loamy sites the taxonomic and trophic structure of soil macrofauna communities are resistant against changes in forest types. [ABSTRACT FROM AUTHOR]

Published

2024

7. Combinative effects of thinning and prescribed burning on fuel reduction and soil arthropods: A case study in a Mediterranean pine forest.

Author

Longeard, Pauline, Santonja, Mathieu, Morandini, Fréderic, Gibernau, Marc, Nadarajah, Sugahendni, Belliard, Pauline, Feignier, Nathalie, Massaiu, Antonella, Andrei‐Ruiz, Marie‐Cécile, and Ferrat, Lila

Subjects

*FOREST fire management, *SOIL animals, *SOIL temperature measurement, *SLASH (Logging), *PRESCRIBED burning, *FUEL reduction (Wildfire prevention)

Abstract

Wildfire pressure involves today to implement silvicultural practices that provide a good compromise between reducing fire risk and maintaining ecological functioning. Thinning reduces tree density and low branches, but results in the deposition of a considerable biomass of woody debris on the ground (up to 4800 g m2 in this study). They can be eliminated by prescribed burning, but this raises questions about the fire intensity that can be generated and the impact on soil fauna. We undertook the monitoring of a thinning and prescribed burning operation, separated and combined, in November 2020, in a Pinus laricio stand prone to fire risk, located in Bavella, Corsica. Fuel load was determined, and temperature measurements in the soil were performed using K‐type thermocouples. Soil arthropod populations were monitored using pitfall traps, in particular Collembola, Acari, Aranae, and Coleoptera. The combination of thinning and burning resulted in a fire intensity of 75.8 versus 8.4 kW m−1 for burning alone. Maximum temperature rise measured at −2 cm below the surface was less than 5°C for both treatments. The combination of thinning and burning did not result in higher fire intensity at ground level than burning alone, and the soil showed high insulation capacity. Most of the woody debris that burned was small‐diameter, and large‐diameter debris remained unconsumed. This burning, performed during a period of low biological activity, had no effect on soil arthropods, and the presence of large debris may have provided refuge areas. Collembola group was the faster to recover, and were followed by cohorts of predators in summer, especially Acari. Our results suggest that a combination of burning and thinning in autumn may be beneficial for fire prevention. However, the decomposition of woody debris in relation to fire risk, and the occurrence of pests after these treatments need to be monitored. [ABSTRACT FROM AUTHOR]

Published

2024

8. Agroecology and organic farming foster soil health by promoting soil fauna.

Author

Domínguez, Anahí, Escudero, Héctor Javier, Rodríguez, María Pía, Ortiz, Carolina Elizabeth, Arolfo, Romina Vanesa, and Bedano, José Camilo

Subjects

ALTERNATIVE agriculture, SOIL animals, AGRICULTURE, ORGANIC farming, INDUSTRIALISM

Abstract

Agriculture is the main human land use that modifies the environment. The industrial paradigm is the current predominant agricultural model in the Pampean region of Argentina. Its sustainability is being questioned since the detection of soil degradation and water and food pollution. We aimed to assess if alternative farming systems foster soil health-indicated by soil fauna-compared to industrial systems in the Pampean region of Argentina. We sampled soil meso and macrofauna in fields under agroecology (AEC), organic farming (ORG), industrial agriculture (IND) and semi-natural grasslands (GRA). Most functionally relevant faunal groups, ecosystem engineers, litter transformers and predators were more abundant in AEC and ORG than in IND. Mean earthworm biomass was 8 and 2 times greater in AEC and ORG than in IND, respectively. Our results suggest a better development of nutrient cycling and soil structure formation in the alternative systems than in the industrial; together with a better preservation of soil health, crucial for achieving sustainability. We think that recognizing the negative impact of the current model on soil health is a necessary step to promote a change toward agricultural systems that are more socially and environmentally sustainable, in Argentina and also in other Latin American countries that face similar situations. [ABSTRACT FROM AUTHOR]

Published

2024

9. Windthrow Impact on Alpine Forest Humipedon: Soil Microarthropod Communities and Humus Dynamics Five Years after an Extreme Windstorm Event.

Author

Visentin, Francesca, Remelli, Sara, Zanella, Augusto, and Menta, Cristina

Subjects

FOREST soils, WINDFALL (Forestry), SOIL animals, WOOD decay, HUMUS

Abstract

The ecological impact of windthrow disturbance on humipedons and soil microarthropod communities is examined in two areas of the Italian Alps (Val di Fassa and Cansiglio) five years after the Vaia Storm. The following soil coverage conditions were identified: herbaceous vegetation (G), decaying wood (W), no vegetation (B) in windthrow areas; and these were compared with conditions in adjacent undisturbed intact forests (IF) and, only in Val di Fassa, with permanent meadows (M). Soil pH, soil organic matter content (SOM), humus systems and microarthropod communities were analyzed. In Val di Fassa, SOM loss was observed in windthrow areas vs. IF, moving toward a Mull humus system, while G evolved toward M-like conditions, W maintained a thicker O horizon and lower pH and B exhibited severe soil erosion and the lowest SOM. In Cansiglio, windthrow areas showed a slower transition to a Mull system, with a trend toward increasing pH and decreasing SOM. A clear relationship between microarthropod communities and humus systems could not be established because the consistency and biological origins of the humus diagnostic horizons were not considered. Microarthropod communities under different conditions exhibited significant dissimilarity, with varying responses across groups; Shannon and QBS-ar indices remained stable except for a significant decrease in B. Community dissimilarity thus appears to be enhanced by post-windthrow disturbance, suggesting that destructive windstorms may also present an opportunity for enriched microarthropod diversity. [ABSTRACT FROM AUTHOR]

Published

2024

10. Collaborative Changes between Soil Fauna and Urbanization Gradients in Guangzhou's Remnant Forests.

Author

Wu, Zhijian, Yu, Shiqin, Xu, Guoliang, Ling, Yunan, Mo, Lingzi, Chen, Yuying, and Wan, Hongfu

Subjects

SOIL animals, URBAN ecology, SOIL biodiversity, FOREST soils, COMMUNITY forests

Abstract

Remnant forests are vital in urban ecosystems as they serve as a crucial link between organisms, inorganic environments, and human settlements. However, there is a lack of research on how urbanization affects the physical and chemical properties of soil in remnant forests, as well as the response of soil fauna to environmental changes within these forests. Our study utilized the urbanization gradient research method to investigate the characteristics of the soil fauna community in remnant forests across different urbanization gradients and to understand its intrinsic response to environmental changes. Our results indicate support for the "moderate disturbance hypothesis" based on the statistical values of diversity indices. Additionally, it was found that SOM and Pb are the primary factors influencing soil fauna diversity in the remnant forests, while SOM and Zn are the main influencing factors for the dominant soil fauna groups. To elucidate the impact of urbanization on soil fauna biodiversity in remnant forests, future studies should consider other urbanization factors. [ABSTRACT FROM AUTHOR]

Published

2024

11. Impact of urban disturbance on soil insect communities in a Brazilian Atlantic Forest biological station.

Author

Moreira, Felipe Ferraz Figueiredo, Rodrigues, Juliana Mourão dos Santos, Krull, Marcos, Boullosa, Raquel G., Gentile, Rosana, Sant'ana, Karina Cunha, and Simões, Marianna V. P.

Abstract

Urbanization constitutes a major threat to biodiversity. Understanding its effects on insect communities is relevant because they are key elements of trophic interactions, and indicators and targets of conservation. Herein, we investigated the influence of meteorological and habitat factors on the soil entomofauna in three areas with distinct levels of urbanization at the Parque Estadual da Pedra Branca, Brazil. We investigated whether community structure differs among areas with different levels of urbanization, and how changes in the environment affect soil insect community composition and distribution. We systematically monitored communities for 12 months in three areas along a gradient of anthropogenic disturbance, representing preserved secondary forest, disturbed forest and peridomicile areas. The results revealed that the degree of urbanization affects insect communities, with a strong effect of habitat factors, such as canopy cover, presence of flooded areas, quantity of fallen trunks and mean temperature. Insect abundance did not show significant differences among areas, while biomass was higher in disturbed forest than in preserved forest and peridomicile areas. Additionally, insect richness and diversity were higher in preserved and disturbed forests than in peridomicile areas, with no significant difference between preserved and disturbed forests. Our results can be used to enhance the understanding of the effects of urbanization on taxonomically and functionally diverse groups of insects, and to advise residents and urban planners about the consequences of urbanization on biodiversity and ecosystem services in urban-sylvatic interface areas. [ABSTRACT FROM AUTHOR]

Published

2025

12. Global microplastics pollution: a bibliometric analysis and review on research trends and hotspots in agroecosystems.

Author

Jamil, Asad, Ahmad, Ambreen, Irfan, Muhammad, Hou, Xin, Wang, Yi, Chen, Ziwei, and Liu, Xianhua

Abstract

The prevalence of microplastics (MPs) in agricultural ecosystems poses a notable threat to dynamics of soil ecosystems, crop productivity, and global food security. MPs enter agricultural ecosystems from various sources and have considerable impacts on the physiochemical properties soil, soil organisms and microbial communities, and plants. However, the intensity of these impacts can vary with the size, shape, types, and the concentrations of MPs in the soil. Besides, MPs can enter food chain through consummation of crops grown on MPs polluted soils. In this study, we conducted a bibliometric analysis of 1636 publications on the effects of MPs on agricultural ecosystems from 2012 to May 2024. The results revealed a substantial increase in publications over the years, and China, the USA, Germany, and India have emerged as leading countries in this field of research. Social network analysis identified emerging trends and research hotspots. The latest burst keywords were contaminants, biochar, polyethylene microplastics, biodegradable microplastics, antibiotic resistance genes, and quantification. Furthermore, we have summarized the effects of MPs on various components of agricultural ecosystems. By integrating findings from diverse disciplinary perspectives, this study provides a valuable insight into the current knowledge landscape, identifies research gaps, and proposes future research directions to effectively tackle the intricate challenges associated with MPs pollution in agricultural environments. [ABSTRACT FROM AUTHOR]

Published

2024

13. Effects of plant taxonomic position on soil nematode communities in Antarctica.

Author

Zhang, Anning, Song, Hongxian, Liu, Ziyang, Cui, Hanwen, Ding, Haitao, Chen, Shuyan, Xiao, Sa, An, Lizhe, and Cardoso, Pedro

Subjects

*SOIL nematodes, *CLIMATE change, *SOIL composition, *SOIL microbial ecology, *NUCLEOTIDE sequencing, *ECOSYSTEMS, ANTARCTIC climate

Abstract

Antarctica terrestrial ecosystems are facing the most threats from global climate change, which is altering plant composition greatly. These transformations may cause major reshuffling of soil community composition, including functional traits and diversity, and therefore affect ecosystem processes in Antarctica. We used high‐throughput sequencing analysis to investigate soil nematodes under 3 dominant plant functional groups (lichens, mosses, and vascular plants) and bare ground in the Antarctic region. We calculated functional diversity of nematodes based on their diet, life histories, and body mass with kernel density n‐dimensional hypervolumes. We also calculated taxonomic and functional beta diversity of the nematode communities based on Jaccard dissimilarity. The presence of plants had no significant effect on the taxonomic richness of nematodes but significantly increased nematode functional richness. The presence of plants also significantly decreased taxonomic beta diversity (homogenization). Only mosses and vascular plants decreased nematode functional beta diversity, which was mostly due to a decreased effect of the richness difference component. The presence of plants also increased the effect of deterministic processes potentially because environmental filtering created conditions favorable to nematodes at low trophic levels with short life histories and small body size. Increasing plant cover in the Antarctic due to climate change may lead to increased diversity of nematode species that can use the scarce resources and nematode taxonomic and functional homogenization. In a future under climate change, community restructuring in the region is possible. [ABSTRACT FROM AUTHOR]

Published

2024

14. Collembola Diversity across Vegetation Types of a Neotropical Island in a River Delta.

Author

Lima, Maria Geovana de Mesquita, da Silva, Bruna Maria, Nunes, Rudy Camilo, Marques, Alexandre de Oliveira, Medeiros, Gleyce da Silva, Freire, Fúlvio Aurélio de Morais, Silva, Clécio Danilo Dias da, Winck, Bruna, and Bellini, Bruno Cavalcante

Subjects

*RESOURCE availability (Ecology), *SOIL ecology, *SOIL animals, *RIPARIAN forests, *FOREST litter, *MANGROVE plants

Abstract

Springtails, vital for ecosystem assessment, are often overshadowed by taxonomy-focused research, which mostly neglects their ecology and distribution, particularly in the Neotropical Region. The objective of this study was to identify how environmental factors, especially vegetation types, affect the availability of food resources for epiedaphic Collembola and influence their diversity patterns in three vegetation types (riparian forest, mangrove, and restinga) in the Canárias Island, in Delta do Parnaíba Environmental Protection Area, Brazil (APADP). We collected samples along 200 m transects in each vegetation type during the dry and rainy seasons. After, specimens were sorted, counted and identified. Alpha (species richness, Shannon, Simpson, and Pielou indices) and beta diversity (Whittaker index) were analyzed, along with environmental factors' influence through Redundancy Analysis (RDA). We sampled a total of 5346 specimens, belonging to three orders, eight families, 23 genera, 31 morphospecies, and one nominal species. Species abundance was positively influenced by soil moisture, plant richness, and leaf litter. The riparian forest sheltered a higher species richness and diversity, and its biotic and abiotic factors likely enhanced the food resource availability, including vegetal organic matter, fungi, and bacteria. These results provide the first taxonomic and ecological data on the Collembola fauna in the APADP. [ABSTRACT FROM AUTHOR]

Published

2024

15. ZnO Nanoparticles and Soil Fauna Affect Nutrient Transfer via Effects on Soil Fungal Community During Returned Wheat Straw Decomposition.

Author

Jia, Yanyan, Gu, Dalu, Du, Xiaofeng, Yang, Wenfei, Yin, Xiaodong, Li, Qisheng, Kong, Xiangshi, Gao, Yuehong, Kong, Qin, and Liu, Tingwu

Abstract

The decomposition of returned straw is increasing facing the negative impacts by metal nanoparticles (NPs), however, which may be modulated by soil fauna and this modulation effect is unclear. Here, the interactive effects of ZnO NPs with soil fauna on wheat straw decomposition were investigated in a potted rice cropping system. The results showed that ZnO NP below middle concentrations did not significantly influence straw decomposition, and mass loss was mainly driven by microfauna and microbes. High concentrations of ZnO NPs significantly impeded decomposition, mainly by reducing the complexity of fungal communities. This negative effect was ascribed to the promotion of Zn solubilization by bacterial taxa such as unclassified Acidobacteria, Bacteroidetes and Gemmatimonadetes. ZnO NPs had a greater impact on soil microorganisms than on fauna, reduced microbial activity, promoted the released straw nutrients entering into the soil by damaging nutrient transferring microorganisms and dominated the effects on soil stoichiometry. However, soil fauna significantly increased the activities of C- and N-releasing enzymes, decreased the activity of P-releasing enzymes, regardless of ZnO NP concentration, and promoted straw C decomposition. ZnO NPs altered soil microbial community composition, but these changes were modulated by soil fauna. Nonetheless, nutrient transport by fungi such as Ascomycota and Zygomycota and grazing by fauna were the predominant modulators on straw stoichiometry. The results of this study revealed that rational control of soil fauna will be helpful for promoting straw decomposition and efficient recycling of straw nutrients by crops under ZnO NP contamination.Article Highlights: High ZnO NP concentrations inhibit straw decomposition mainly by reducing diversity of fungal community. The negative effects of ZnO NPs are ascribed to Zn solubilization by bacterial taxa such as unclassified Acidobacteria, Bacteroidetes and Gemmatimonadetes. ZnO NPs have greater impact on soil microorganisms than on fauna, reduce microbial activity, promote the released nutrients into soil and dominate the effects on soil stoichiometry. Fungal transport (e.g., Ascomycota and Zygomycota) and fauna grazing are the predominant modulators on straw stoichiometry. [ABSTRACT FROM AUTHOR]

Published

2024

16. Toxicity of soil accumulated insecticides on the survival of Isotoma decorata (Brown, 1923) in laboratory.

Author

Ahmed, Sohail, Asif, Muhammad Usman, and Hassan, Babar

Subjects

*EMAMECTIN benzoate, *INSECTICIDES, *BIFENTHRIN, *IMIDACLOPRID, *SOILS

Abstract

Toxicity of 10 insecticides was tested against Isotoma decorata under laboratory conditions by incorporating field recommended doses (RDs) of insecticides along with three lower doses (1/2 × RD, 1/4 × RD, and 1/6 × RD) in the soil. The survival of I. decorata was observed every week for eight weeks. Results showed that endosulfan, chlorpyrifos, chlorfenapyr, imidacloprid, and acetamiprid were the most toxic insecticides at all tested doses with significantly less survived springtails. Comparatively, higher survival was observed after treatment with bifenthrin, pyriproxyfen, emamectin benzoate, and spinosad. In comparison, cypermethrin showed significantly less toxicity with the highest survival of I. decorata compared with all other tested insecticides. RDs of all these insecticides were found hazardous for the survival of I. decorata. At the RDs of chlorpyrifos and endosulfan survival of I. decorata was <1%. A decline in the survival rate of springtail was observed against these insecticides at all doses with an increased time of exposure during the eight weeks. Results showed the effects of insecticides on non-target soil springtails and implied the caution and possible mitigation measures using these insecticides. [ABSTRACT FROM AUTHOR]

Published

2024

17. Linking nematodes and ecosystem function: a trait-based framework.

Author

Zhang, Chongzhe, Wright, Ian J., Nielsen, Uffe N., Geisen, Stefan, and Liu, Manqiang

Subjects

*SOIL biology, *ECOSYSTEMS, *BIOLOGICAL fitness, *SOIL nematodes, *NUTRIENT cycles, *CARBON cycle, *NEMATODES

Abstract

Emerging knowledge of plant–soil biotic interactions and the role of soil organisms in shaping the world aboveground is advancing our understanding of ecosystem function. Nematodes are the most abundant animals on Earth. They are morphologically and functionally diverse, and play key roles in ecosystem function, making them ideal for developing a trait-based understanding of adaptation to the environment and for assessing their contributions to ecosystem function. Trait-based approaches allow us to capture the functional attributes of organisms beyond their taxonomic identity, provide insights on evolutionary fitness, and make global comparisons possible. We propose the nematode economics spectrum (NES), analogous to the plant economic spectrum, which describes the tradeoffs among growth, reproduction, and survival, potentially enabling us to predict the impacts of global change on nematode ecological strategies and the associated changes in ecosystem function. Trait-based approaches are being increasingly adopted to understand species' ecological strategies and how organisms influence ecosystem function. Trait-based research on soil organisms, however, remains poorly developed compared with that for plants. The abundant and diverse soil nematodes are prime candidates to advance trait-based approaches belowground, but a unified trait framework to describe nematode ecological strategies and assess their linkages with ecosystem function is lacking. We categorized nematode traits as morphological, physiological, life history, and community clusters, and proposed the nematode economics spectrum (NES) to better understand nematode ecological strategies and their association with ecosystem function. We argue that bridging the NES and the plant economics spectrum will facilitate a more holistic understanding of ecosystem carbon and nutrient cycling under global change. [ABSTRACT FROM AUTHOR]

Published

2024

18. Effects of biochar addition on soil fauna communities—A meta‐analysis.

Author

Li, Tao, Jiao, Yan, Liu, Tingting, Gu, Hongyu, Li, Zhihe, Wang, Shaoqing, and Liu, Jianbiao

Subjects

ANIMAL communities, SOIL animals, ECOLOGICAL integrity, SOIL amendments, CARBON-based materials, BIOCHAR

Abstract

Soil fauna is an important part of global biodiversity and plays a vital role in ecosystems. The microbial communities in soil fauna can have significant impacts on soil fertility, as microbial communities play a pivotal role in soil function by supporting ecological integrity and agricultural productivity. This study assesses the effect of biochar on soil fauna and response of microbial communities. Biochar is a highly porous organic carbon material, and the impact of biochar on microbial communities in soil fauna remains unclear. To date, no quantitative or comprehensive investigation has been undertaken to examine the effects of biochar on microbial communities in soil fauna. In this paper, we aim to quantify the effects of biochar on the abundance and diversity of soil fauna communities in various environments by conducting a meta‐analysis of 24 studies and analysing 459 observations. The impact of biochar on soil fauna communities was determined by analysing the responses of soil fauna that included differences in biochar feedstock, pH and pyrolysis, application rates and application times, as well as soil fauna with different physiological characteristics (body size, presence of exoskeletons). The results showed that biochar had a neutral (non‐significant) effect on the soil fauna community, with a total mean effect size (Hedge's g) = −0.04 (CI: −0.28; −0.20). Results Data validation using Egger regression showed no publication bias. Higher pH biochar and biochar from conventional pyrolysis were beneficial to soil fauna, but not significant (QM (df = 3) = 4.07, p =.25). In addition, body size of soil animals significantly reflected different sensitivities to biochar application, with Medium‐sized animals benefiting the most from biochar addition (0.35; CI: 0.05; 0.65; n = 6; 56). Animals with (n = 11; 125) and without exoskeletons (n = 17; 308) also showed favourable and unfavourable responses to biochar addition, respectively. This study can provide basic data for the evolutionary pattern of animal communities during biochar soil amendment, as well as information for the comprehensive evaluation of the environmental and biological effects of biochar. [ABSTRACT FROM AUTHOR]

Published

2024

19. Assessment of heavy metals in soil, leaf litter, and their bioaccumulation in terrestrial macroinvertebrates in Sohag Governorate, Egypt.

Author

Mustafa, Asmaa N., Khedre, Azza M., and El-masry, Safa M.

Subjects

FOREST litter, HEAVY metals, BIOACCUMULATION, COPPER, INVERTEBRATES, LEAD

Abstract

The presence of elevated levels of heavy metals in soil poses a significant environmental concern with implications for human health and other organisms. The main objective of our study was to reduce the gap information of seasonal abundance, distribution of heavy metals in soil, leaf litter, and some macroinvertebrates in a citrus orchard (Citrus sinensis) in Sohag Governorate, Egypt. The heavy metals copper (Cu), zinc (Zn), lead (Pb), and cadmium (Cd) were determined by atomic absorption spectrometry. Degree of contamination (DC) was determined for both soil and leaf litter contamination. However, the bioaccumulation factor (BAF) was estimated to determine metal accumulation in the macroinvertebrates including earwigs Anisolabis maritima, chilopoda Scolopendra moristans, spider Dysdera crocata, and earthworm Aporrectodea caliginosa. The study area had clay-loam with varying organic matter, salinity, and pH levels. The degree of contamination varied among seasons, with the highest levels typically observed in autumn in both soil and leaf litter. The soil ranged from low contamination (1.82) to high contamination levels (4.4), while the leaf litter showed extremely high (30.03) to ultra-high (85.92) contamination levels. The mean ecological risk index results indicated that the sampling area had moderate ecological risk levels for Cd (44.3), Zn (42.17), and Pb (80.05), and extremely high levels for Cu (342.5). Heavy metal concentrations in the selected fauna were the highest in autumn, and the bioaccumulation factor varied among species and seasons with some species classified as e-concentrators, micro-concentrators, and macro-concentrators of certain heavy metals. Scolopendra moristans exhibited the highest mean metal concentrations (Cd, Pb, and Zn), while Aporrectodea caliginosa had the lowest. Thus, the differences in heavy metal concentrations found in different soil taxa highlight the significance of taxing a holistic understanding of feeding mechanisms into account when evaluating the potential risk for animals that consume invertebrates. [ABSTRACT FROM AUTHOR]

Published

2024

20. Distribution and natural history of Plutonium zwierleini (Chilopoda: Scolopendromorpha) in Sicily (Italy).

Author

Faraone, F. P., Vecchioni, L., Goldenberg, J., Giacalone, G., Muscarella, C., Signorello, G., Battista, A., Nicolosi, G., and Marrone, F.

Subjects

*NATURAL history, *PLUTONIUM, *CENTIPEDES, *DIETARY patterns, *SOIL animals, *PREDATION

Abstract

Plutonium zwierleini is a large plutoniumid centipede of great evolutionary interest, occurring with isolated populations along the western Mediterranean area, from Spain to Italy. Due to its rarity and the extreme paucity of available records, P. zwierleini is among the least known Mediterranean chilopods, and scarce information is currently available on its ecology and natural history. Based on an extensive sampling effort carried out in Sicily between 2022 and 2023, we here provide additional occurrence localities for the species across Sicily, and new insights into its ecology. Overall, 29 novel Sicilian records of P. zwierleini, scattered across 21 localities, were collected thus increasing its known Sicilian distribution area by 117%, and the number of localities by 110%. The species was found in a wide range of habitats such as open areas, woods, buildings, and caves, characterizing Plutonium zwierleini as a habitat generalist, whose fine ecological preferenda need to be further explored. Moreover, to explore the diet and behaviour of the species, some specimens were kept in captivity. The captive individuals fed mostly on dead or poorly mobile soft-bodied prey and inert food, without ever displaying predatory behaviour; this suggests that, contrarily to what is currently assumed, P. zwierleini might be a scavenger rather than a predator. The potential distribution of Plutonium zwierleini in Sicily was inferred based on georeferenced occurrence records and climatic variables. The implemented MaxEnt model forecasts the possible occurrence of P. zwierleini on the whole island, with the single exception of its south-easternmost part, possibly due to the local pattern of precipitation seasonality. We hope that the present work might pave the way for further surveys aimed at a better understanding of the ecology of Plutonium zwierleini and the collection of new data in the other regions inhabited by this secretive species. [ABSTRACT FROM AUTHOR]

Published

2024

21. Soil–Plant–Pollinator Relationships in Urban Grass and Meadow Habitats: Competing Benefits and Demands of Tall Flowering Plants on Soil and Pollinator Diversity.

Author

Rust, Will, Sotkewicz, Madison, Li, Zhaoxing, Mercer, Theresa, and Johnston, Alice S.

Subjects

*FLOWERING of plants, *PLANT-soil relationships, *ANGIOSPERMS, *HABITATS, *POLLINATORS, *URBAN plants

Abstract

Urban green spaces can be important habitats for soil, plant, and pollinator diversity and the complementary ecosystem functions they confer. Most studies tend to investigate the relationships between plant diversity with either soil or pollinator diversity, but establishing their relationship across habitat types could be important for optimising ecosystem service provision via alternative management (for instance, urban meadows in place of short amenity grass). Here, we investigate soil–plant–pollinator relationships across urban grass and meadow habitats through a range of measured biodiversity (soil mesofauna and macrofauna, plants, aboveground invertebrates, and pollinators) and edaphic variables. We found significant effects of habitat type on available nutrients (plant and soil C:N ratios) but less clear relationships were observed between habitat type and diversity metrics. Soil–plant–pollinator interactions across habitat types and sites showed an interconnection, whereby flowering plant abundance increased alongside soil macrofauna abundance. Site characteristics that showed strong effects on plant and invertebrate diversity metrics were C:N ratios (plant and soil) and soil pH, suggesting a potential role of nutrient availability on soil–plant–pollinator associations. Our results suggest that a combination of short-mown grass, tall grass, and sown flowers can provide greater benefits for soil and pollination services as each habitat type benefits different taxa due to differing sensitivities to management practices. For example, pollinators benefit from sown flowers but soil fauna are sensitive to annual sowing. Our results also indicate that sown flowers may not optimise overall biodiversity as expected due to disturbance and the depleting role of tall, flowering plants on soil nutrient availability. Future research across a greater range of sites in urban landscapes would resolve the potential role of nutrient availability in modulating soil–plant–pollinator interactions in urban green spaces. [ABSTRACT FROM AUTHOR]

Published

2024

22. No-till system organic vegetable production under green manure: effect on yield and soil properties.

Author

da Silva, Camilla Santos Reis de Andrade, da Silva Araújo, Ednaldo, Costa, Luana Sousa, de Araújo, Suellen Nunes, da Silva Junior, Jander Barbosa, Ziviani, Melania Merlo, da Silva, Maura Santos Reis de Andrade, Guerra, José Guilherme Marinho, Espindola, José Antonio Azevedo, and Pinheiro, Érika Flávia Machado

Abstract

In horticulture, the commonly applied agricultural practice of soil tillage often favours soil degradation. Even under organic cultivation, agricultural mechanization can stimulate organic matter mineralization and, consequently, cause soil quality losses. To maintain the soil properties in this production system, it is imperative to adopt a management system that minimizes soil disturbance, avoiding aggregate breakdown and exposure of organic matter to oxidation. This study evaluated the effect of different organic soil management systems on vegetable yield and the physical, chemical and biological properties that define soil quality. Three soil management systems were evaluated: NT- no-till system; CT-RH—conventional tillage with a rotary hoe; and CT-PH- conventional tillage, ploughing and harrowing. Soil aggregation, organic carbon (C) content in aggregates, penetration resistance, gravimetric moisture, organic matter light fraction, soil carbon, epigeal fauna and edaphic macrofauna were evaluated. The study showed that vegetable yields were similar in the different management systems; penetration resistance was the most sensitive physical indicator of soil management; carbon contents in soil macroaggregates and free light fraction (FLF) were the most sensitive chemical indicators to differentiate organic management systems in the soil surface layer. The highest FLF and C contents in soil macroaggregates were observed under CT-RH, followed by NT; the NT system promoted a greater density and richness of soil faunal groups, and multivariate analysis indicated a higher correlation with these biological properties. In conclusion, vegetable crop yields did not differ among the organic production management systems. [ABSTRACT FROM AUTHOR]

Published

2024

23. Evaluation of soil fauna diversity in maize crops using Shannon, Margalef, and Pielou indices

Author

Guilherme Bergeijer da Rosa, Diego Nicolau Follmann, Alessandro Alessandro Dal’Col Lúcio, Rodrigo Josemar Seminoti Jacques, Valéria Ortaça Portela, and Volmir Sergio Marchioro

Subjects

soil fauna, waste decomposition, litter bag method, Zea mays L., Agriculture (General), S1-972

Abstract

Soil organisms are vital for soil quality and can indicate environmental conditions. This study aimed to understand the diversity of soil fauna and its connection to plant residue decomposition and maize grain yield across various locations and crop seasons in a subtropical setting. We conducted experiments in Frederico Westphalen, Santa Maria, and São Vicente do Sul, Rio Grande do Sul State, Brazil, during two crop seasons in 2020/2021, totalling six experiments. We assessed parameters such as plant residue decomposition rate, soil fauna abundance, and grain yield. Results showed significant variations in decomposition rate, fauna abundance, and diversity measures (Shannon, Margalef, and Pielou indices, plus relative frequency) across environments. Four taxonomic groups comprised over 80% of collected individuals, with Araneae and Coleoptera showing more than half of relative frequency Our analysis revealed that areas with higher grain yields had faster decomposition rates, suggesting they fostered greater organism activity and nutrient cycling, indicating their potential as soil quality indicators.

Published

2024

24. Forest gap regulates soil nematode community through understory plant diversity and soil pH

Author

Haifeng Yin, Yu Su, Jie Zeng, Xianwei Li, Chuan Fan, Jing-Zhong Lu, Zheng Zhou, Anwei Yu, Simin Wang, Stefan Scheu, and Valentyna Krashevska

Subjects

Soil biodiversity, Soil fauna, Forest plantations, Forest management, Science

Abstract

Soil biodiversity and the structure of soil animal communities are important foundations for forest ecosystem functions. Forest gap formation is an important forest management practice used to transform monocultures into mixed forests. However, whether and how gap size and age affect soil biodiversity and modify nematode communities remains limited. We manipulated gap size (100, 200, and 400 m2) in Pinus massoniana plantations and studied the communities of soil nematodes, bacteria, fungi, and understory plants two and four years after gap formation. Compared to the no-gap treatment, soil nematode abundance across forest gaps increased by a factor of 1.40, which was largely attributed to the increase in herbivorous nematodes as the abundance and diversity of understory plants increased. The increased abundance of soil nematodes in forest gaps was also associated with increased soil pH presumably related to reduced input of pine needles. Furthermore, the abundance (−5.3 %) and diversity (−25.1 %) of soil nematodes decreased with gap age, presumably because of increased soil temperature and decreased soil moisture in the four- compared to the two-year-old gaps. In contrast to nematodes, the abundance and diversity of soil bacteria (21.8 % and 7.1 %) and fungi (10.5 % and 10.0 %) increased significantly with gap age. Overall, forest gaps increased the diversity of understory plants and soil biota, and changed the community and functional group structure of soil nematodes. These results provide guidelines for fostering soil biodiversity and maintaining soil functioning when transforming coniferous forests into mixed forests.

Published

2024

25. Earthworms regulate soil microbial and plant residues through decomposition

Author

Jiahui Liao, Juanping Ni, Xiaoming Zou, Han Y.H. Chen, Manuel Delgado-Baquerizo, Yuanyuan Li, Tingting Ren, Ke Shi, and Honghua Ruan

Subjects

Biofilm, Decomposition, Soil fauna, Soil microbial carbon pump, Structural carbohydrate, Science

Abstract

Earthworms are keystone regulators of carbon exchange between terrestrial ecosystems and the atmosphere. However, exactly how earthworms regulate the composition of microbial and plant-derived carbon in soil organic matter remains poorly understood. Here we conducted a microcosm experiment with two species of endogeic earthworms (Drawida gisti and Metaphire guillelmi) to investigate their effects on cellular and extracellular-microbial residues versus fast and slow-decaying plant materials. We found that both species of earthworms reduced microbial residues (amino sugars or the protein content of extracellular polymeric substances (EPS)) and facilitated the decomposition of microbial residues rather than their formation. Neither earthworm species affected slow-decaying plant residues (lignin phenols). However, their effects on the fast-decaying fraction of plant residues (particulate organic matter (POM)) depended on the earthworm species. Principal component analysis (PCA) revealed that earthworms mediated two gradients between microbial and plant residues. The first gradient was between the nitrogenous fraction of microbial residues (e.g., amino sugars and EPS-protein) versus slow-decaying plant lignin, while the second gradient was between the fast-decaying POM versus EPS-polysaccharide. Our results suggest that earthworms play vital roles in mediating plant and microbial residue fractions in soil through their multifaceted mechanisms in regulating the chemical composition of organic carbon, and in understanding biological control of the global soil carbon cycle.

Published

2024

26. A critical review of the microcosm method in soil animal ecology

Author

Einar Edsberg

Subjects

Experimental design, soil fauna, manipulation, abiotic factors, Zoology, QL1-991

Abstract

The microcosm method is widely used in research on soil animal ecology because it allows for controlled manipulations of fauna, climate, and soil properties. However, differences in biotic and abiotic conditions between the microcosm and the natural soil ecosystem it is intended to represent may bias the experimental results. On the basis of literature, potential influences of the following factors were discussed: (1) Microcosm volume and duration of the incubation period. (2) Preparation of the microcosm substrate, with emphasis on the choice between homogenised substrate and intact soil cores. (3) Incubation conditions (moisture, temperature and drainage). (4) Biotic diversity in the microcosm soil, with emphasis on (a) the general problem of low biodiversity in microcosms, (b) the unnatural situation in microcosms without plants, (c) differences in microflora composition between “faunal” and “non-faunal” treatments, and (d) relative densities of the organisms present. Possible ways of dealing with a few of these problems were also discussed.

Published

2024

27. Impact of naphthalene on soil fauna diversity: Consequences for ecosystem functioning and carbon cycling in grasslands

Author

Chengyang Zhou, Gai Hang, Xiaonan Wang, Shining Zuo, Li Liu, and Ding Huang

Subjects

Litter decomposition, Naphthalene, Soil fauna, Soil organic carbon, Ecology, QH540-549.5

Abstract

Soil fauna, key indicators of grassland ecosystem health, face significant threats from the vast amounts of chemical pollutants released by human activities. These organisms are crucial for fundamental processes such as litter decomposition and carbon cycling. However, the response of soil animal communities and their functional dynamics to environmental chemical stress remains poorly understood. To investigate this, we conducted a naphthalene addition and litterbag experiment in the Bashang Grassland, located on the southern Inner Mongolia Plateau, to analyze its effects on soil fauna and litter decomposition. The investigated soil fauna groups included Arachnida (Arachnids), Insecta (Insects), Collembola (Springtails), Enoplea (enopleans), and Chromadorea (chromadoreans). The litter composition included Leymus chinensis, Stipa krylovii, Artemisia, Saussurea amara, and Artemisia giraldii. The findings indicated that a high diversity of soil fauna enhanced the decomposition of litter and the release of organic carbon from the litter. While the addition of naphthalene decreased both the abundance of soil fauna and the rate of litter decomposition, it specifically increased the relative proportion of Collembola (Springtails). Microfauna and mesofauna (0.1–2.0 mm) contributed more to the loss of litter mass and the release of organic carbon from the litter than macrofauna (2.0–4.0 mm). The effects of diverse soil fauna on litter decomposition and soil organic carbon accumulation were diminished by naphthalene exposure. This study further reveals the relationship between composite soil fauna diversity, litter decomposition, and soil organic carbon under chemical stress, highlighting the threat of environmental pollution to ecosystem health. It also enriches our understanding of the complexity of grassland ecosystems, especially in response mechanisms under chemical pollution stress.

Published

2024

28. Combinative effects of thinning and prescribed burning on fuel reduction and soil arthropods: A case study in a Mediterranean pine forest

Author

Pauline Longeard, Mathieu Santonja, Fréderic Morandini, Marc Gibernau, Sugahendni Nadarajah, Pauline Belliard, Nathalie Feignier, Antonella Massaiu, Marie‐Cécile Andrei‐Ruiz, and Lila Ferrat

Subjects

fire dynamics, forest management, Pinus laricio, slashes, soil fauna, Ecology, QH540-549.5

Abstract

Abstract Wildfire pressure involves today to implement silvicultural practices that provide a good compromise between reducing fire risk and maintaining ecological functioning. Thinning reduces tree density and low branches, but results in the deposition of a considerable biomass of woody debris on the ground (up to 4800 g m2 in this study). They can be eliminated by prescribed burning, but this raises questions about the fire intensity that can be generated and the impact on soil fauna. We undertook the monitoring of a thinning and prescribed burning operation, separated and combined, in November 2020, in a Pinus laricio stand prone to fire risk, located in Bavella, Corsica. Fuel load was determined, and temperature measurements in the soil were performed using K‐type thermocouples. Soil arthropod populations were monitored using pitfall traps, in particular Collembola, Acari, Aranae, and Coleoptera. The combination of thinning and burning resulted in a fire intensity of 75.8 versus 8.4 kW m−1 for burning alone. Maximum temperature rise measured at −2 cm below the surface was less than 5°C for both treatments. The combination of thinning and burning did not result in higher fire intensity at ground level than burning alone, and the soil showed high insulation capacity. Most of the woody debris that burned was small‐diameter, and large‐diameter debris remained unconsumed. This burning, performed during a period of low biological activity, had no effect on soil arthropods, and the presence of large debris may have provided refuge areas. Collembola group was the faster to recover, and were followed by cohorts of predators in summer, especially Acari. Our results suggest that a combination of burning and thinning in autumn may be beneficial for fire prevention. However, the decomposition of woody debris in relation to fire risk, and the occurrence of pests after these treatments need to be monitored.

Published

2024

29. The influence of forest types including native and non‐native tree species on soil macrofauna depends on site conditions

Author

Ronja Wenglein, Jing‐Zhong Lu, and Stefan Scheu

Subjects

Douglas fir, forest mixtures, macrofauna, non‐native species, soil fauna, stable isotopes, Ecology, QH540-549.5

Abstract

Abstract The ongoing climate change calls for managing forest ecosystems in temperate regions toward more drought‐resistant and climate‐resilient stands. Yet ecological consequences of management options such as planting non‐native tree species and mixing coniferous and deciduous tree species have been little studied, especially on soil animal communities, key in litter decomposition and pest control. Here, we investigated the taxonomic and trophic structure of soil macrofauna communities in five forest types including native European beech (Fagus sylvatica), range‐expanding Norway spruce (Picea abies) and non‐native Douglas fir (Pseudotsuga menziesii) as well as conifer‐beech mixtures across loamy and sandy sites in northern Germany. Abundance of primary decomposers (feeding predominantly on litter) was high in Douglas fir and beech forests, benefiting from less acidic soil and more favorable litter resources compared to spruce forests, while secondary decomposers (feeding predominantly on microorganisms and microbial residues) reached highest densities in spruce forests. Differences in abundance and species richness among forest types generally varied between regions and were most pronounced in Douglas fir of the sandy region. However, trophic guilds differed more between regions than between forest types, indicating that environmental factors outweigh the importance of forest type on soil macrofauna communities. The analysis of stable isotopes (δ15N and δ13C values) supported the general robustness in trophic position of macrofauna trophic guilds against variations in forest types and regions, but indicated reduced detrital shifts and food‐chain lengths in coniferous compared to European beech forests with mixtures mitigating these effects. Overall, for evaluating consequences of future forest management practices on the structure and functioning of soil animal communities, regional factors need to be considered, but in particular at loamy sites the taxonomic and trophic structure of soil macrofauna communities are resistant against changes in forest types.

Published

2024

30. Effects of organic amendments on crop production and soil fauna community in contrasting Zambian soils

Author

Toru Hamamoto, Nhamo Nhamo, David Chikoye, Ikabongo Mukumbuta, and Yoshitaka Uchida

Subjects

crop production, dryland, organic amendment, soil fauna, sub‐Saharan Africa, Agriculture (General), S1-972, Environmental sciences, GE1-350

Abstract

Abstract The use of organic materials has been widely promoted to improve soil health. Surface‐active soil macrofauna serves as a key biological indicator of soil health as it supports agricultural productivity. However, the effects of organic amendments on soil fauna and their relationships with crop production are still unknown in C‐limited soil conditions. A field experiment was conducted under different fertilizer management in two soils with contrasting C content (14.2/5.1 g C kg−1 at the Lusaka/Kabwe site) in Zambia. Our results show a contrast in soil fauna abundance in two soils. During the experimental period, we collected a total of 926 individual soil fauna in all plots at the Lusaka site, while only 145 individual soil fauna were collected at the Kabwe site. Soil fauna was predominantly composed of Araneae, Coleoptera, Dermaptera, Diplopoda, and Orthoptera. Organic amendments significantly increased soil fauna abundance only at the Lusaka site, and the abundance of Coleoptera and Diplopoda was highly related to the crop yield. At the Kabwe site, the effect of organic amendment on soil fauna abundance was minimal, although significantly higher crop yields were observed in soils with organic amendment. These contrasting results may be due to soil nutrient and water status between different sites. Our findings suggest that site‐specific strategies are required to protect and enhance soil fauna communities in C‐depleted soils.

Published

2024

31. Effects of Micro-Nanoplastics Exposure to Earthworms in the Soil System

Author

Bhat, Sartaj Ahmad, Han, Zaw Min, Dewi, Shiamita Kusuma, Cui, Guangyu, Wei, Yongfen, Li, Fusheng, Bhat, Sartaj Ahmad, editor, Kumar, Vineet, editor, Li, Fusheng, editor, and Kumar, Sunil, editor

Published

2024

32. How the effect of earthworms on soil organic matter mineralization and stabilization is affected by litter quality and stage of soil development

Author

Irshad, Saliha and Frouz, Jan

Published

2024

33. The rapid response of the ground beetle communities to the meadow steppe habitat loss in West Podillia (Ukraine)

Author

I. Y. Liashuk, Y. I. Kapelyukh, S. V. Skrypnyk, and A. M. Zamoroka

Subjects

biodiversity, soil fauna, carabidae, anthropogenic pressure, afforestation, plagioclimax, climatic climax, ecological succession, edge effect, bioindication., Science

Abstract

Ground beetles (Coleoptera: Carabidae) stand out as one of the most diverse families not just among insects but also among all living organisms on Earth. They have emerged as essential bioindicators of environmental disturbance, reflecting changes in ecosystems due to agricultural, forestry, and urbanization practices. The presence, abundance, and species composition of carabid communities serve as reliable indicators of habitat quality and ecosystem health. We conducted a comprehensive study of the meadow-steppe habitats, utilizing ground beetles as sensitive ecological indicators. We delineated four distinct groups of species based on ecological preferences and habitat affinities: I) steppe xerothermophilic stenobionts; II) steppe and ruderal xero- and mesophilic eurybionts; III) meadow and ruderal meso- and hygrophilous eurybionts; and IV) forest meso- and hygrophilous steno- and eurybionts. Our findings elucidate a distinct response of ground beetle species groups to transformation processes occurring within meadow steppes. Species belonging to group I (Brachinus crepitans, Ophonus rupicola, O. puncticollis, Leistus ferrugineus) expanded notably in distribution under conditions characterized by xerophilization and elevated temperatures. Conversely, species within group II (Harpalus atratus, H. caspius, H. hospes, H. solitaris, Ophonus azureus) and group III (Amara aenea, A. familiaris, Calathus fuscipes, Carabus cancellatus, C. convexus, Cylindera germanica, Harpalus affinis, H. latus, H. rubripes, H. xanthopus, Pterostichus atrorufus, P. cupreus, P. strenuus) showed a comparable response to the habitat, with a preference for higher soil mois­ture. Species within group IV (Abax carinatus, A. parallelepipedus, A. parallelus, Carabus arvensis, C. glabratus, C. linnei, C. nemoralis, C. ulrichii, C. variolosus, Cychrus caraboides, C. semigranosus, Leistus piceus, Limodromus assimilis, Molops piceus, Pterostichus melanarius, P. niger, P. oblongopunctatus) demonstrated an association with markedly different environmental condi­tions, characterized by significant moisture levels and relatively lower soil temperatures conducive to their existence. Steppe species (group I) were observed in only 12 out of 27 sample plots of meadow steppes, while a significant presence of species from groups II and III was evident in most cases, indicating mesophilization due to shrub and tree vegetation expansion. Forest species of ground beetles (group IV) were prevalent in the majority of meadow steppe sample plots, reflecting disruption of plagioclimax likely re­sulting from the cessation of traditional economic practices. Despite the presence of the meadow-steppe vegetation, steppe species of ground beetles were entirely absent, suggesting their potential as early indicators of ongoing changes in the meadow-steppe habitats.

Published

2024

34. ROLE OF WOODY PLANTS’ ECTOMYCORRHIZA IN THE DYNAMIC OF FOREST SOILS ORGANIC MATTER: SYNTHESIS AND CONCEPTUALIZATION OF AVAILABLE DATA

Author

O. G. Chertov, Center for Forest Ecology and Productivity of the Russian Academy of Sciences, V. N. Shanin, and P. V. Frolov

Subjects

forest soils, ectomycorrhiza, soil organic matter, nitrogen mining, soil fauna, faunal excretes, Forestry, SD1-669.5

Abstract

The main aspects of the woody plants ectomycorrhiza functioning, which affect the forest soil organic matter (SOM) formation and decomposition, are considered. Ectomycorrhiza consumes trees’ root exudates for growth with formation of a dense net of extramatrical mycelium, which has a short life span. Thanks to that, a fast turnover of mycelium biomass takes place here with formation of a big pool of belowground litter fall. Its mass is larger than a total pool of aboveground litter (leaves, confer needles, etc.). Mycelial bio- and necromass have been consumed by soil biota of different functional groups and levels of soil food webs, resulting in formation of solid-phase metabolic products. These products (excreta, casts) represent a labile nitrogen-rich pool of fresh SOM. Simultaneously, the decomposition of this labile SOM pool serves as a mechanism to return available nitrogen to plant roots in the soil. This mechanism determines an ectomycorrhizal positive effect for trees and other plants growth in forest communities. Therefore, a consideration of the effect of ectomycorrhiza on soil organic matter shall include a triad of organisms: “plant – mycorrhiza – soil biota” (including both microorganisms and soil fauna).

Published

2024

35. The ConSoil project: An integrated framework for monitoring plant protection product residues in agricultural soil.

Author

Renaud, Mathieu, Campiche, Sophie, Dell'Ambrogio, Gilda, Marti‐Roura, Mireia, Junghans, Marion, and Ferrari, Benoit J. D.

Subjects

*AGRICULTURAL wastes, *PLANT products, *PLANT protection, *SOIL biology, *POISONS

Abstract

Plant Protection Products (PPPs) are widely used to maintain high productivity and protect crops, but can have unintended toxic effects on beneficial non‐target soil organisms. To avoid unacceptable adverse effects of PPPs on soil organisms, a prospective risk assessment is carried out, which focuses on individual substances and their effects on a few individual species or groups. However, the reality of agricultural soils consists of complex networks of organisms exposed to mixtures of several PPP active substances. It is therefore essential to monitor PPP residues in soils. This paper describes the ConSoil project and its proposed framework for monitoring PPP residues in Swiss Agricultural soils which includes and integrates (1) risk‐based reference values for PPP residues in soil and (2) indicators of their effects on long‐term soil fertility. For risk‐based reference values, a proposal has been developed to derive Soil Guideline Values (SGVs) for PPP residues and a mixture risk assessment concept is being developed. Regarding indicators, a toolbox of ecological and ecotoxicological indicators will be proposed to reflect the protection goal of long‐term soil fertility in agricultural soils. For this objective, standardised and/or well‐established bioindicator methods will be selected for the key soil organisms that support soil fertility. To integrate SGVs and the biomonitoring toolbox, an adapted TRIAD approach is proposed, where generic SGVs are used as a screening tool to identify monitoring sites potentially at risk and to trigger more detailed monitoring. Detailed monitoring will refine the SGVs based on site‐specific characteristics and implement the bioindicator toolbox to measure the effects of PPP residues and their risk to long‐term soil fertility. As a novel integrated framework, it is essential to use the data generated in detailed assessments to calibrate and refine the SGVs and bioindicator tools and improve the monitoring over time. [ABSTRACT FROM AUTHOR]

Published

2024

36. Soil Moisture and Litter Coverage Drive the Altitude Gradient Pattern of Soil Arthropods in a Low-Elevation Mountain.

Author

Qin, Haiming, Shang, Jingwen, Qi, Qin, Cao, Bo, Kong, Yong, Li, Yujian, Chen, Junfeng, and Yi, Xianfeng

Subjects

*SOIL moisture, *SOIL animals, *PEARSON correlation (Statistics), *ARTHROPODA, *SOILS, *TRACE fossils

Abstract

This study sought to investigate the vertical distribution pattern of the soil faunal community in a low-altitude mountain area. On 8 July 2022, a low hill was selected as the study area, and soil arthropods were collected through traps. The leaf litter, vegetation type, and distribution quantity of each sampling site were investigated while the soil faunae were collected. In addition, the soil's physical and chemical parameters were measured. The results of a one-way ANOVA showed that there were significant differences (p < 0.05) in the soil properties, leaf litter, and plant quantities at different altitudes within the research area. A total of 1086 soil arthropods, belonging to five classes and ten orders, were collected during the study period. The dominant species of soil arthropods at different altitudes were significantly different. The dominant species in low-altitude areas were Armadillidium sp. and Aethus nigritus. However, Eupolyphaga sinensis and Philodromidae were the dominant species in high-altitude areas. The results of a non-metric multidimensional scaling (NMDS) analysis showed that the soil faunae at different altitudes were clustered into two communities: a high-altitude community and a low-altitude community. With the increase in altitude, the species richness of the soil arthropods gradually decreased, and their abundance showed a decreasing trend. A redundancy analysis (RDA) of the soil arthropods and environmental factors showed that soil moisture (p < 0.01), pH (p < 0.01) and defoliation (p < 0.05) had significant effects on the distribution of the soil fauna. The results of a Pearson correlation analysis indicated that different environmental factors had interactive effects on the distribution of the soil arthropods. The quantity and species richness of the soil arthropods in different sample lines were tested using a variance analysis. The results showed that there were significantly smaller quantities of soil arthropods in the sampling line closer to the trekking ladder. This indicates that human tourism, namely mountaineering activities, had a direct impact on the soil fauna. This study can provide a reference for and data support in the development of biodiversity conservation measures for forest parks in low mountain areas. [ABSTRACT FROM AUTHOR]

Published

2024

37. Meta‐analysis reveals that the effects of precipitation change on soil and litter fauna in forests depend on body size.

Author

Martin, Philip A., Fisher, Leonora, Pérez‐Izquierdo, Leticia, Biryol, Charlotte, Guenet, Bertrand, Luyssaert, Sebastiaan, Manzoni, Stefano, Menival, Claire, Santonja, Mathieu, Spake, Rebecca, Axmacher, Jan C., and Yuste, Jorge Curiel

Subjects

*SOIL animals, *FOREST litter, *BODY size, *FOREST animals, *EFFECT of human beings on climate change

Abstract

Anthropogenic climate change is altering precipitation regimes at a global scale. While precipitation changes have been linked to changes in the abundance and diversity of soil and litter invertebrate fauna in forests, general trends have remained elusive due to mixed results from primary studies. We used a meta‐analysis based on 430 comparisons from 38 primary studies to address associated knowledge gaps, (i) quantifying impacts of precipitation change on forest soil and litter fauna abundance and diversity, (ii) exploring reasons for variation in impacts and (iii) examining biases affecting the realism and accuracy of experimental studies. Precipitation reductions led to a decrease of 39% in soil and litter fauna abundance, with a 35% increase in abundance under precipitation increases, while diversity impacts were smaller. A statistical model containing an interaction between body size and the magnitude of precipitation change showed that mesofauna (e.g. mites, collembola) responded most to changes in precipitation. Changes in taxonomic richness were related solely to the magnitude of precipitation change. Our results suggest that body size is related to the ability of a taxon to survive under drought conditions, or to benefit from high precipitation. We also found that most experiments manipulated precipitation in a way that aligns better with predicted extreme climatic events than with predicted average annual changes in precipitation and that the experimental plots used in experiments were likely too small to accurately capture changes for mobile taxa. The relationship between body size and response to precipitation found here has far‐reaching implications for our ability to predict future responses of soil biodiversity to climate change and will help to produce more realistic mechanistic soil models which aim to simulate the responses of soils to global change. [ABSTRACT FROM AUTHOR]

Published

2024

38. Soil and Vegetation Characteristics of Grassland Have a Greater Influence on the Abundance and Diversity of Earthworms than the Mowing Intensity in a Managed Nature Reserve.

Author

Kerschbaumer, Günther, Karrer, Gerhard, Gruber, Edith, and Zaller, Johann G.

Subjects

NATURE reserves, EARTHWORMS, SOIL animals, MOWING, GRASSLANDS, SOIL classification, PLANT identification, POPULATION viability analysis, TOLERATION

Abstract

Effects of mowing on vegetation parameters have been well studied. However, less is known about mowing effects on soil fauna and if soil properties alter this. We investigated earthworm communities in a long-term experiment 14 years after its establishment in 5 dry, fresh and moist grassland plots located in the Natura 2000 site Lainzer Tiergarten near Vienna, Austria (238–402 m a.s.l., 48°10′ N, 16°12′ E). The grasslands were either mowed once a year or every second year, or not mowed since being established. Earthworms were assessed using the non-destructive octet electro-shocking method. Additionally, vegetation composition, soil conductivity, temperature and moisture were assessed. We found 13 earthworm species across all treatments, although their abundance was generally low with 6.1 ± 4.7 worms m−2. The total earthworm abundance and species diversity was higher in dry compared to fresh and moist grasslands but was not affected by mowing frequency. Endogeic earthworms (Aporrectodea caliginosa, Aporrectodea rosea) and epigeics (Lumbricus rubellus) were more tolerant to mowing than anecics (Lumbricus terrestris, Allolobophora longa). Since plant species richness was highest in annually mown grasslands and earthworm species richness was positively related to plant species numbers, we recommend regular, low-input management to promote above- and belowground biodiversity in these grasslands. [ABSTRACT FROM AUTHOR]

Published

2024

39. EDAPHIC COLLEMBOLA (COLLEMBOLA) AS INDICATORS OF THE CHEMICAL CHARACTERISTICS OF SOIL IN A PEACH ORCHARD (PRUNUS PERSICA (L.) BATSCH) IN MICHOACÁN, MEXICO.

Author

MIRANDA-RANGEL, A., CANO-SANTANA, Z., CASTAÑO-MENESES, G., PALACIOS-VARGAS, J. G., and CORONA-TEJEDA, P.

Subjects

COLLEMBOLA, INDICATORS & test-papers, FOREST litter, PRUNUS, PEACH

Abstract

Edaphic collembola are abundant in agricultural soils and can be used as bioindicators of the condition of the soils they inhabit. We study the composition, diversity, and phenology of the collembola community in a peach orchard (Prunus persica (L.) Bach) located in Zitácuaro, Michoacán, Mexico. We evaluated the effect of physical and chemical characteristics of the orchard's soil on the edaphic collembola community. Collembola were extracted by Berlese funnels from samples of leaf litter and soil obtained monthly, from September 1993 to August 1994. Fallen leaves were not removed from the ground for the duration of the study. Sixty-nine species were registered: 58 in leaf litter and 53 in soil. Collembola density varied from 248 to 15,889 ind m-2 in leaf litter and 419 to 7,286 ind m-2 in soil. The layer of fallen leaves exhibited the highest density, species richness and diversity of collembola. The edaphic variables that altered collembola density were organic matter content, cationic exchange capacity (CEC) and carbon-tonitrogen ratio. Richness was affected by organic matter and total nitrogen. Diversity was affected by pH, total nitrogen, calcium, and carbon-to-nitrogen ratio. The density of dominant species was negatively affected by phosphorus and calcium content, as well as CEC. [ABSTRACT FROM AUTHOR]

Published

2024

40. The threat of a major tree pathogen to forest soil mesofauna food webs and ecosystem functioning.

Author

Struijk, Marijke, Stavert, Jamie R., Le Grice, Rebecca J., Schwendenmann, Luitgard, Romera, Poppy Joaquina, Mitchell, Grace, Sünnemann, Marie, Yang, Jaynie, Hjelm, Fredrik, Barnes, Andrew D., Masoni, Alberto, Oliveira Filho, Luis Carlos Iunes, and Remelli, Sara

Subjects

FOREST soils, FOOD chains, FOREST biodiversity, SOIL invertebrates, SOIL biodiversity, SOIL sampling

Abstract

Tree pathogens threaten the survival of many forest foundation tree species worldwide. However, there is limited knowledge of how dieback of foundation tree species may threaten other components of forest ecosystems, such as soil biodiversity and associated ecosystem functions. Kauri (Agathis australis), threatened by the root-borne pathogen Phytophthora agathidicida, are culturally and ecologically significant tree species that exert great influence on soil properties. We aimed to characterise soil mesofauna community structure and energy fluxes in kauri forests and assess the potential threat that tree pathogens such as P. agathidicida pose to belowground ecosystems. We sampled soil mesofauna communities and identified specimens to functional feeding groups at 24 pairs of kauri and adjacent broadleaf trees in sites across the Waitakere Ranges Regional Park, Aotearoa -- New Zealand. We attributed kauri canopy health scores, measured tree diameter, slope, forest floor depth, and soil carbon dioxide efflux. We also analysed soil samples for P. agathidicida presence, total carbon, and total nitrogen. We constructed soil mesofauna food webs associated with kauri and broadleaf trees, and assessed the uniqueness of food webs associated with kauri and the impacts of P. agathidicida on density, biomass, mean body mass, and energy fluxes of mesofauna taxonomic and trophic groups. We found omnivores with larger body mass at kauri where P. agathidicida was detected (i.e., P. agathidicida-positive soils). Compared to broadleaf trees, mesofauna density and biomass were lower in soils under kauri, and body masses of Symphyla and omnivores were smaller in soils under kauri. Differences in mesofauna community response variables between tree types were mainly modulated by the soil C:N ratio, which had positive effects under broadleaf and neutral to negative effects under kauri. Energy fluxes to detritivores and fungivores were greater under larger trees, regardless of tree type or P. agathidicida detection status. Our findings suggest that kauri support soil mesofauna food webs that are distinctly different from those found under broadleaf trees in the same habitat. A decreased presence of this foundation species may be linked to future impacts on soil mesofauna in this forest ecosystem with increasingly advanced stages of kauri dieback. [ABSTRACT FROM AUTHOR]

Published

2024

41. Impacto do manejo da cana-de-açúcar com controle químico e biológico sobre a fauna epígea.

Author

Fialho Santos, Eliane, Santana de Lima, Sandra, dos Santos Ferreira, Cyndi, Soares dos Santos, Marcelo, and Ferreira Silva, Kellen Lagares

Subjects

*SOIL biology, *NON-target organisms, *SOIL animals, *SOIL quality, *RECORDS management

Abstract

Sugarcane is considered to be one of the main activities in Brazil in the sugar-energy sector. However, sugarcane cultivation also stands out as a consumer of pesticides, a widespread practice to combat pests, eliminate weeds and diseases identified in production. However, their use causes environmental imbalance by affecting non-target soil organisms that are important for environmental services in the soil ecosystem. The aim of this study was to evaluate the community of epigean fauna as a bioindicator of soil quality in areas where sugarcane is cultivated with chemical control and biological control and native forest. The research was carried out at the Pagrisa mill, located in the municipality of Ulianópolis, PA. Two areas of sugar cane cultivation were selected with different managements, biological control and chemical control, as well as an area of woodland as a reference. It was observed that in the first collection during the dry season, the highest frequencies were of the following groups: Formicidae, Opilionida, Coleoptera and Chilopoda. In the second collection, during the rainy season, the Formicidae group was the most frequent, but the Coleoptera, Coleoptera larvae, Opilionida and Orthoptera groups were observed in low frequency. In both collection periods, a higher frequency of the Formicidae group was recorded in the sugarcane management areas with biological and chemical controls. The analysis of the epigean fauna in the sugarcane areas showed through richness and ecological indices that management with biological control, in the dry season, provided good conditions for the development of fauna groups. Management with agrochemicals led to a marked decrease in epigean fauna groups. [ABSTRACT FROM AUTHOR]

Published

2024

42. EDAPHIC MACROFAUNA IN AREAS CULTIVATED WITH IRRIGATED BRASSICA UNDER NO-TILLAGE SYSTEM.

Author

Ribeiro Neto, Áureo, Santana de Lima, Sandra, Thomaz Thuler, Robson, da Silva Vieira, Dinamar Márcia, Loss, Arcângelo, Moraes Sampaio, Iara Uliana, Oliveira Coelho, Virgínia, and Rodrigues Torres, José Luiz

Subjects

NO-tillage, SOIL animals, SOIL sampling, TERMITES, VEGETABLES, CONSERVATION & restoration, OLIGOCHAETA, AGRICULTURE, ANTS

Abstract

Copyright of Environmental & Social Management Journal / Revista de Gestão Social e Ambiental is the property of Environmental & Social Management Journal and its content may not be copied or emailed to multiple sites or posted to a listserv without the copyright holder's express written permission. However, users may print, download, or email articles for individual use. This abstract may be abridged. No warranty is given about the accuracy of the copy. Users should refer to the original published version of the material for the full abstract. (Copyright applies to all Abstracts.)

Published

2024

43. Diversity and Zoogeographic Affinities of Earthworms (Clitellata: Lumbricidae) in Kosovo and Metohia.

Author

Radosavljević, Slobodanka L., Popović, Filip J., Stojanović, Mirjana M., Sekulić, Jovana M., and Trakić, Tanja B.

Subjects

LUMBRICIDAE, EARTHWORMS, CLITELLATA, SOIL animals, ENDEMIC species, MEGASCOLECIDAE

Abstract

We have summarised the current knowledge on earthworm diversity in Kosovo and Metohia. The complete list of earthworm taxa includes 40 species and subspecies belonging to 11 genera of the family Lumbricidae. Among them, Aporrectodea handlirschi (Rosa, 1897), Cernosvitovia paratuleskovi (Šapkarev, 1975), Cernosvitovia strumicae (Šapkarev, 1973), Cernosvitovia treskavicensis (Mršić, 1991), Dendrobaena vejdovskyi (Černosvitov, 1935) and Lumbricus meliboeus (Rosa, 1884) were registered for the first time in the study area. With respect to the zoogeographical characteristics, most of the earthworm species belong to peregrine (14 species, 35%) and endemic groups (11 species, 27.5%). The group of the endemic species belongs to the genera Dendrobaena and Cernosvitovia. [ABSTRACT FROM AUTHOR]

Published

2024

44. Impact of land use history and soil properties on soil mite communities (Acari, Mesostigmata) inhabiting stands growing on post‐agricultural land.

Author

Malica, Jacek, Rączka, Grzegorz, Turczański, Krzysztof, Andrzejewska, Agnieszka, Skorupski, Maciej, Urbanowski, Cezary K., and Kamczyc, Jacek

Subjects

ENVIRONMENTAL history, FOREST fires, PARASITIFORMES, SOIL animals, FORESTS & forestry, MITES

Abstract

Decades of agriculture in a former—type of ecosystem, for example, deciduous forests—result in severe habitat degradation. The planted tree species encounter harsh conditions due to physically and chemically transformed soil environments. In addition, afforestation itself significantly modifies the upper soil horizons. It may impact the soil fauna communities, including mites from the Mesostigmata order (Mesostigmata = Gamasida). Due to their sensitivity, mesostigmatid mites are good bioindicators of changes in the soil. A decrease in the density, species richness, and diversity of mites indicates disturbances in the soil environment and may confirm the impact of agricultural practice on the soil environment. Our research aim was to examine the impact of soil properties and land use history on the mesostigmatid mite communities in stands growing on forest and post‐agricultural lands. These sites were afforested with different tree species (Betula pendula Roth., Fagus sylvatica L., Pinus sylvestris L., and Quercus robur L.). Thus, 21 research plots were established on forest and post‐agricultural land, each on rusty soils considered to be one of the most common in Central European forests. We collected a total of 567 soil samples during three sampling sessions in spring and autumn for soil Mesostigmata investigation. We also described the soil profile on each plot and collected soil and litter samples to measure pH, litter thickness, soil organic matter, bulk density, soil moisture, soil organic carbon, and elements content. Our study revealed that 16 out of 30 environmental parameters differed between habitat types. A total of 1355 mites were classified into 58 taxa (50 species and 8 genera). The most numerous species were Veigaia nemorensis (165 ind.; 12.2% of all mesostigmatid mites), Zercon peltatus (156; 11.5%), and Paragamasus conus (141; 10.4%). The highest abundance was recorded in birch stands on forest land, whereas the lowest abundance for oak stands growing on post‐agricultural land. Interestingly, in oak stands we recorded both the highest diversity of mite communities (forest land) and the lowest on post‐agricultural land. Furthermore, our study showed that post‐agricultural land and Na content in forest litter affected the abundance, species richness, and diversity of mesostigmatid mite communities. Species richness was additionally affected by tree species, that is, pine and oak. Our research indicated that long‐term agricultural practice negatively affected the density, species richness, and diversity of Mesostigmata communities 20 years after afforestation. [ABSTRACT FROM AUTHOR]

Published

2024

45. Multi-Trophic Species Diversity Contributes to the Restoration of Soil Multifunctionality in Degraded Karst Forests through Cascading Effects.

Author

Long, Fayu, Zhou, Guanghui, Zu, Lei, Zang, Lipeng, Chen, Danmei, Zhang, Guangqi, Sui, Mingzhen, He, Yuejun, and Liu, Qingfu

Subjects

FOREST degradation, SPECIES diversity, SOIL restoration, SOIL animals, PEARSON correlation (Statistics), SOIL microbial ecology, MICROBIAL diversity

Abstract

The biodiversity–ecosystem function (BEF) relationship is the basis for studying the restoration of degraded ecosystems, and the simultaneous assessment of multi-trophic-level biodiversity and ecosystem multifunctionality relationship is more conducive to unravelling the restoration mechanism of degraded ecosystems, especially for degraded forest ecosystems with harsh habitats and infertile soils such as karst. In this study, we evaluated the biodiversity and soil multifunctionality (SMF) of degraded karst forests (scrub, SB; secondary growth forests, SG; old-growth forests, OG) in the Maolan National Nature Reserve, China, using 30 sample plots. Biodiversity and soil multifunctionality (SMF) at three trophic levels (plant–soil fauna–soil microorganisms), were assessed through vegetation surveys and soil sampling. One-way ANOVA showed that SMF increased with natural restoration, but multi-trophic level biodiversity showed different trends. Pearson's correlation analysis showed a positive correlation between plant species diversity and SMF (p < 0.001), whereas soil fauna and soil microorganisms were negatively correlated with SMF. Structural equation modeling revealed a cascading effect of the multi-trophic level on the stimulation of the SMF during restoration. Only soil microorganisms exhibited a direct driving effect on SMF (p < 0.001), whereas plants indirectly influenced soil microorganisms through soil fauna, which subsequently affected the SMF. Although we observed the negative effects of increased plant diversity on soil fauna and soil microbial diversity in terms of quantitative relationships, the increase in soil fauna species and the evenness of soil microbial function still contributed to SMF restoration. This study revealed the cascading effects of multi-trophic diversity in promoting SMF restoration and emphasized that soil microbes are key to unraveling restoration mechanisms and processes, whereas soil fauna is an important intermediate link. [ABSTRACT FROM AUTHOR]

Published

2024

46. Edaphic Fauna Associated with Areas Managed under no-till with and without Terraces

Author

Inara de Souza Stockmann, Dinéia Tessaro, Lucas da Silva Domingues, Jéssica Camile da Silva, Luis Felipe Wille Zarzycki, Ketrin Lorhayne Kubiak, and Erivelto Folhato Tolfo

Subjects

Conservation agriculture, soil fauna, soil management, terracing, Biotechnology, TP248.13-248.65

Abstract

Abstract Conservation soil management systems can promote beneficial changes in the edaphic fauna, which is important in improving and maintaining soil quality. Hence, this study aimed to evaluate the edaphic fauna in two areas with soils managed under no-till with and without terraces for four years. The edaphic fauna was evaluated by installing 32 pitfall trapsin each experimental plot. After seven days, the traps were removed, and the sampled individuals were classified at the level of major taxonomic groups. Collembola, Acari, Formicidae, Coleoptera, and Araneae were the most abundant in both study areas. The mean abundance of the order Coleoptera stood out in the no-till system with terraces in 2021, while the orders Collembola and Acari were more abundant without terraces in 2019 and 2021, and 2021 and 2022, respectively. There was a greater abundance of organisms for both areas in 2021, with significant equitability in the no-till system with terraces. Thus, the results showed that only some groups are positively affected by mechanical erosion control.

Published

2024

47. Taxonomic diversity and abundance of enchytraeids (Annelida, Clitellata, Enchytraeida) in the Northern Palaearctic. 1. Asian part

Author

Maxim Degtyarev, Ruslan Saifutdinov, Daniil Korobushkin, Alexander Bastrakov, Margarita Danilova, Ivan Davydov, Anastasia Gorbunova, Polina Guseva, Evgeniy Karlik, Roza Koshchanova, Ksenia Kuznetsova, Iurii Lebedev, Dmitriy Medvedev, Roman Obolenskiy, Anna Popova, Nina Pronina, Leonid Rybalov, Alexei Surov, Akmal Tadzhimov, Alexander Tarasov, Vladislav Vasiliev, Andrey Zaitsev, Elena Zvychaynaya, and Konstantin Gongalsky

Subjects

sampling event, soil fauna, potworm, tundra, borea, Biology (General), QH301-705.5

Abstract

Enchytraeids, or potworms, are tiny oligochaetes that are distributed worldwide in many terrestrial, freshwater and marine ecosystems. Despite their key role in the functioning of ecosystems, the diversity and abundance of Enchytraeidae are rarely studied due to the laborious process of species identification. The present study addresses this gap and sheds some light on the distribution and abundance of enchytraeids in the lands of the Northern Palearctic. The provided dataset constitutes the latest and comprehensive field sampling of enchytraeid assemblages across the Asiatic part of the Northern Palearctic, encompassing an original set of soil samples systematically collected throughout the region from 2019 to 2022.The dataset includes occurrences from 131 georeferenced sites, encompassing 39 species and 7,074 records. This represents the first dataset providing species-specific information about the distribution and abundance of terrestrial enchytraeids across an extensive geographic area covering the Asian sector of the Northern Palaearctic. The compiled dataset is the key for exploring and understanding local and regional enchytraeid diversity. It may also serve as a valuable resource for monitoring and conserving the entire soil biodiversity.

Published

2024

48. Distribution and natural history of Plutonium zwierleini (Chilopoda: Scolopendromorpha) in Sicily (Italy)

Author

F. P. Faraone, L. Vecchioni, J. Goldenberg, G. Giacalone, C. Muscarella, G. Signorello, A. Battista, G. Nicolosi, and F. Marrone

Subjects

Centipede, feeding behavior, species distribution model, soil fauna, cryptozoans, Zoology, QL1-991

Abstract

Plutonium zwierleini is a large plutoniumid centipede of great evolutionary interest, occurring with isolated populations along the western Mediterranean area, from Spain to Italy. Due to its rarity and the extreme paucity of available records, P. zwierleini is among the least known Mediterranean chilopods, and scarce information is currently available on its ecology and natural history. Based on an extensive sampling effort carried out in Sicily between 2022 and 2023, we here provide additional occurrence localities for the species across Sicily, and new insights into its ecology. Overall, 29 novel Sicilian records of P. zwierleini, scattered across 21 localities, were collected thus increasing its known Sicilian distribution area by 117%, and the number of localities by 110%. The species was found in a wide range of habitats such as open areas, woods, buildings, and caves, characterizing Plutonium zwierleini as a habitat generalist, whose fine ecological preferenda need to be further explored. Moreover, to explore the diet and behaviour of the species, some specimens were kept in captivity. The captive individuals fed mostly on dead or poorly mobile soft-bodied prey and inert food, without ever displaying predatory behaviour; this suggests that, contrarily to what is currently assumed, P. zwierleini might be a scavenger rather than a predator. The potential distribution of Plutonium zwierleini in Sicily was inferred based on georeferenced occurrence records and climatic variables. The implemented MaxEnt model forecasts the possible occurrence of P. zwierleini on the whole island, with the single exception of its south-easternmost part, possibly due to the local pattern of precipitation seasonality. We hope that the present work might pave the way for further surveys aimed at a better understanding of the ecology of Plutonium zwierleini and the collection of new data in the other regions inhabited by this secretive species.

Published

2024

49. Litter mixture effects on decomposition change with forest succession and are influenced by time and soil fauna in tropical mountain Andes

Author

Castillo-Figueroa Dennis

Subjects

andean forests, ecological succession, litter decomposition, litter mixture, non-additive effects, soil fauna, Ecology, QH540-549.5

Abstract

In highly transformed regions, such as the tropical Andes, identifying the influence of forest succession and soil fauna on non-additive effects of litter decomposition is crucial for gaining a more realistic understanding of carbon dynamics and nutrient cycles. The objective of this paper was to analyze the changes of litter mixture effects on decomposition between different soil fauna treatments (macrofauna inclusion vs macrofauna exclusion) and successional stages (mature forests vs secondary forests) in upper Andean tropical forests along time by using a reciprocal translocation experiment of 1,344 litterbags that ran for 18 months with six common native Andean species. Thought t-tests, linear regressions, and linear mixed models, I found that litter mixture effects vary among sites and increase with time in secondary forests until the year of decomposition in litterbags with macrofauna exclusion. Mature forests exhibited strong antagonistic effects, while pronounced synergistic effects were observed in secondary forests. Although soil macrofauna did not increase significantly litter decomposition and synergistic effects in the mixtures at any of the stages of decay, it is likely that soil macrofauna may impact litter mixtures through top-down effects within soil food webs, rather than exerting a direct effect in the litter consumption as has been reported in tropical lowland ecosystems. Overall, this study supports the idea that litter mixtures exhibit significant variability across sites, can change with successional stage, and are influenced by soil fauna depending on the stage of decay in tropical Andean montane forests.

Published

2024

50. Size spectra of the edaphic fauna of typical Argiudol soils of the Rolling Pampa Region, Argentina

Author

Víctor Velazco, Rosana Sandler, Maria Cynthia Valeria Sanabria, Liliana Falco, Carlos Coviella, and Leonardo Saravia

Subjects

Soil fauna, soil invertebrates, Acari, Collembola, Biology (General), QH301-705.5

Abstract

Soil-dwelling organisms populate the spaces—referred to as interstices—between the litter on the soil surface and the pores in the soil's organo-mineral matrix. These organisms have pivotal roles in soil ecosystem functions, such as the breakdown and decomposition of organic matter, the dispersal of bacterial and fungal spores and biological habitat transformation. These functions, in turn, contribute to broader ecosystem services like carbon and nutrient cycling, soil organic matter regulation and both chemical and physical soil fertility.This study provides morphological data pertaining to a range of soil organism sizes, specifically in Argiudol soils subjected to varying levels of agricultural activity in the Rolling Pampas Region, one of the world's most extensive and fertile plains.The primary focus is on soil microarthropods—namely, Acari (mites) and Collembola (springtails)—with a body width of less than 2 mm. These organisms constitute the majority of life in the intricate soil pore network. Additionally, the study documents species of earthworms (Oligochaeta, Crassiclitelata), recognised as ecosystem engineers for their ability to create physical channels in the soil matrix and to distribute organic matter. Moreover, the study includes measurements of morphological traits of soil-dwelling "macrofauna" (organisms with a body width greater than 2 mm), which are also implicated in various soil ecosystem functions. These include population regulation by apex predators, organic matter decomposition, biogenic structure formation, nutrient mobilisation and herbivory.In this paper, we report both the geographical locations and individual measurements of key morphological traits for over 7,000 specimens, covering a range of soil-dwelling organisms. These include springtails (Entognatha, Collembola), mites (Arachnida, Acari), earthworms (Oligochaeta, Crassiclitellata) and additional soil macrofauna. All specimens were collected from typical Argiudol soils located in three distinct agricultural systems characterised by varying levels of land-use intensity. To our knowledge, no other dataset exists providing this information for the Argentinian Pampas.

Published

2023