Collembola of winter wheat fields in the Kaluga Region: conservation treatment versus conventional one

Natalia A. Kuznetsova; Michael B. Potapov; Kseniya S. Panina; Maria D. Antipova; Anna I. Bokova

doi:10.15468/rv6g98

Collembola of winter wheat fields in the Kaluga Region: conservation treatment versus conventional one

Citation

Kuznetsova N A, Potapov M B, Panina K S, Antipova M D, Bokova A I (2021). Collembola of winter wheat fields in the Kaluga Region: conservation treatment versus conventional one. Version 1.6. Moscow Pedagogical State University (MPSU).. Sampling event dataset https://doi.org/10.15468/rv6g98 accessed via GBIF.org on 2024-12-13.

Description

Effect of conservation treatments of soil cultivation in agriculture on the diversity of springtails, small soil arthropods involved in the destruction of organic residues in the soil, was investigated. The following variants were studied: 1) treatment with organic fertilizers and tillage, without mineral fertilizers and pesticides), 2) the same but without tillage, only disking; 3) with mineral fertilizers, pesticides and tillage. Special multi-scale sampling design was used. The material was collected on July 24-26, 2019 in Kaluga region, European part of Russia. Data on 2226 records on 7302 specimens of 32 species in 6 fields in 486 soil cores are presented.

Изучали влияние сберегающих технологий обработки почвы в сельском хозяйстве на разнообразие ногохвосток - мелких почвенных членистоногих, участвующих в деструкции органических остатков в почве. Были рассмотрены следующие варианты полей озимой пшеницы: 1) с органическими удобрениями (без минеральных удобрений, пестицидов) и пахотой; 2) как вариант 2, но без вспашки, только дискование; 3) с минеральными удобрениями, пестицидами и вспашкой почвы. Использовали специальную мультимасштабную схему отбора проб. Материал был собран 24-26 июля 2019 года в Калужской области, Европейская часть России. Представлены данные по 2226 записям, 7302 экземплярам, 32 видам на 6 полях в 486 почвенных пробах.

Sampling Description

Study Extent

Information on number of individuals of springtail species in soil cores collected in winter wheat fields under different agricultural treatment in the Kaluga Region (the European part of Russia). The following variants were studied: 1) treatment with organic fertilizers and tillage, without mineral fertilizers and pesticides), 2) the same but without tillage, only disking; 3) with mineral fertilizers, pesticides and tillage. Two fields were considered for each variant. A specific multi-scale sampling design was used. The material was collected in July 24-26, 2019. Data on 2226 specimens of 32 species (6 series of sampling, 486 soil cores). The material was collected by Mikhail Potapov and Natalia Kuznetsova and was identified by Potapov Mikhail, Panina Ksenia, Kuznetsova Natalia, Shveenkova Yulia.

Sampling

A corer of 8 sq. cm was used. Soil was investigated up to 20 cm. 81 cores were taken in each field when sampling. Cores were placed in the corners of different-scale equilateral triangles inscribed in squares with sides 10 cm, 25 cm, 1 m and 10 m. The different-scale triangles were designed following the principles of fractal geometry.

Quality Control

Keys by Babenko et al. (1994); Fielberg (1998, 2007), Potapov (2002) and particular taxonomic articles were used for species identification. Experts on different families of springtails were consulted.

Method steps

A multi-scale sampling design is used to study the structure of biodiversity (Lande, 1996), communities, and populations at different spatial scales (Azovsky et al., 2000). Fractal arrangement of cores saves sample effort because the same core is used for analysis at different scales (Marsh, Ewers, 2013). The approach is common in hydrobiology, entomology, etc. but it continues to be rare in soil zoology (Kuznetsova, Saraeva, 2018). The small size of the cores (8 sq.cm) was used due to the special attention of diversity and spatial structure of population at the micro level. The sample design is described in detail by Saraeva et al. (2015). Collembola were extracted into 70% alcohol using Tullgren funnels, the material was mounted on slides in Phoera liquid according to a standard procedure (Гиляров, 1975; Потапов, Кузнецова, 2011). Springtails were identified to species level using a microscope and taxonomic keys (Fjellberg, 1980). The determinations were corrected using modern keys (Fjellberg, 1998, 2007, Potapov, 2002) and some taxonomic papers. Data on species were digitized, standardized, the quality of data was checked and errors were corrected, and then published.

Taxonomic Coverages

Arthropoda
rank: phylum
Collembola
rank: order

Geographic Coverages

European part of Russia, Kaluga Region, Mosalsky District, surroundings of Savino village

Bibliographic Citations

Бабенко А.Б. Потапов М.Б., Стебаева С.К., Чернова Н.М. Определитель коллембол фауны России и сопредельных стран: Семейство Hypogastruridae, 1994. М.: Наука. С.1-336. -
Azovsky A. I., Chertoprood M. V., Kucheruk N. VRybnikov P. V., Sapozhnikov F. V. Fractal properties of spatial distribution of intertidal benthic communities. Marine Biology (2000) 136: 581-590. -
Гиляpов М.С. Учет мелких членистоногих (микрофауны) и нематод // Методы почвенно-зоологических исследований. М.: Наука, 1975. 30-43. -
Fjellberg A. The Collembola of Fennoscandia and Denmark, Part I: Poduromorpha. Fauna Entomologica Scandinavica, V. 35, 1998, p.1-184. -
Fjellberg A. The Collembola of Fennoscandia and Denmark, Part II: Entomobryomorpha and Symphypleona Fauna Entomologica Scandinavica. 2007. V. 42, 1-264. -
Kuznetsova N.A., Saraeva A.K. Beta-diversity partitioning approach in soil zoology: A case of Collembola in pine forests // Geoderma, 2018.V. 332. P.142-152. - https://doi.org/10.1016/j.geoderma.2017.09.030
Lande, R., 1996. Statistics and partitioning of species diversity, and similarity among multiple communities. Oikos 76, 5–13. - http://dx.doi.org/10.2307/3545743
Marsh J., Ewers R.M. A fractal-based sampling design for ecological surveys quantifying b-diversity. Methods in Ecology and Evolution, 2013, 4, 63–72. - doi: 10.1111/j.2041-210x.2012.00256.x
Potapov M. Synopses on Palaearctic Collembola. V.3. Isotomidae. Abhandlungen und Berichte der Naturkundemuseum Gorlitz, 2002. S. 1-603. -
Потапов М.Б., Кузнецова Н.А. Методы исследования сообществ микроартропод: пособие для студентов и аспирантов. М.: Т-во научных изданий КМК. 2011. C. 1-77. -
Saraeva A.K., Potapov M.B., Kuznetsova N.A. Different-Scale Distribution of Collembola in Uniform Ground Cover: Sphagnum Moss. Entomological Review, 2015, Vol. 95, No. 5. P. 557-577. - DOI: 10.1134/S0013873815050012. 2
Kuznetsova N, Ivanova N (2020) Diversity of Collembola under various types of anthropogenic load on ecosystems of European part of Russia. Biodiversity Data Journal 8: e58951. - https://doi.org/10.3897/BDJ.8.e58951

Contacts

Natalia A. Kuznetsova
originator
position: Professor
Moscow State Pedagogical University, Institute of Biology and Chemistry, Zoology and Ecology Dpt.
Kibalchicha 6, B.3
Moscow
129164
RU
email: mpnk@yandex.ru
userId: http://orcid.org/0000-0002-5042-9193

Michael B. Potapov
originator
position: Leading researcher
Moscow State Pedagogical University, Ecology and Biodiversity Educational Center
Kibalchicha 6, B.3
Moscow
129164
RU
email: mpnk-abroad@yandex.ru
userId: http://orcid.org/0000-0002-6111-3354

Kseniya S. Panina
originator
position: Student
Moscow State Pedagogical University, Institute of Biology and Chemistry, Zoology and Ecology Dpt.
Kibalchicha 6, B.3
Moscow
129164
RU
email: paninaxeniya@yandex.ru

Maria D. Antipova
originator
position: Student
Moscow State Pedagogical University, Institute of Biology and Chemistry, Zoology and Ecology Dpt.
Kibalchicha 6, B.3
Moscow
129164
RU
email: antimar.2410@gmail.com

Anna I. Bokova
originator
position: Bokova
Moscow State Pedagogical University, Institute of Biology and Chemistry, Zoology and Ecology Dpt.
Kibalchicha 6, B.3
Moscow
129164
RU
email: anbok.mpgu@gmail.com

Natalia A. Kuznetsova
metadata author
position: Professor
Moscow State Pedagogical University, Institute of Biology and Chemistry, Zoology and Ecology Dpt.
Kibalchicha 6, B.3
Moscow
129164
RU
email: mpnk@yandex.ru
userId: http://orcid.org/0000-0002-5042-9193

Natalya Ivanova
programmer
position: Reseacher
Institute of Mathematical Problems of Biology RAS
1, Vitkevicha str.
Pushchino
142290
Moscow Region
RU
email: natalya.dryomys@gmail.com
userId: http://orcid.org/0000-0003-4199-5924

Julia B. Shveenkova
point of contact
position: Senior Researcher
Privolshkaya Lesostep Nature Reserve
12a Okruzhnaya str.
Penza
440031
RU
email: jushv@mail.ru

Natalia A. Kuznetsova
administrative point of contact
position: Professor
Moscow State Pedagogical University, Institute of Biology and Chemistry, Zoology and Ecology Dpt.
Kibalchicha 6, B.3
Moscow
129164
RU
email: mpnk@yandex.ru
userId: http://orcid.org/0000-0002-5042-9193