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Title

The soil aggregate structure as a marker of the ecological niche of the micromollusc Vallonia pulchella

Journal title

Journal of Water and Land Development

Yearbook

2022

Issue

No 52

Affiliation

Umerova, Ava : Bogdan Khmelnitsky Melitopol State Pedagogical University, Faculty of Chemistry and Biology, Hetmanska st., 20, 72318, Melitopol, Ukraine ; Zhukov, Olexander : Bogdan Khmelnitsky Melitopol State Pedagogical University, Faculty of Chemistry and Biology, Hetmanska st., 20, 72318, Melitopol, Ukraine ; Yorkina, Nadezhda : Bogdan Khmelnitsky Melitopol State Pedagogical University, Faculty of Chemistry and Biology, Hetmanska st., 20, 72318, Melitopol, Ukraine

Authors

Umerova, Ava ; Zhukov, Olexander ; Yorkina, Nadezhda

Keywords

ecological niche ; geostatic analysis ; habitat ; Matérn model ; phytoindication ; soil mechanical impedance

Divisions of PAS

Nauki Biologiczne i Rolnicze

Coverage

66-74

Publisher

Polish Academy of Sciences; Institute of Technology and Life Sciences - National Research Institute

Bibliography

BERTRAND M., BAROT S., BLOUIN M., WHALEN J., DE OLIVEIRA T., ROGER- ESTRADE J. 2015. Earthworm services for cropping systems. A review. Agronomy for Sustainable Development. Vol. 35 p. 553–567. DOI 10.1007/s13593-014-0269-7.
BRIND’AMOUR A., DANIEL B., DRAY S., LEGENDRE P. 2011. Relationships between species feeding traits and environmental conditions in fish communities: A three-matrix approach. Ecological Applica-tions. Vol. 21 p. 363–377. DOI 10.1890/09-2178.1.
CALENGE C. 2011. Exploratory analysis of the habitat selection by the Wildlife in R: the adehabitatHS Package. R CRAN Project pp. 60.
ČEJKA T., HAMERLÍK L. 2009. Land snails as indicators of soil humidity in Danubian woodland (SW Slovakia). Polish Journal of Ecology. Vol. 57 p. 741–747.
CHAPLOT V., COOPER M. 2015. Soil aggregate stability to predict organic carbon outputs from soils. Geoderma. Vol. 243–244 p. 205–213. DOI 10.1016/j.geoderma.2014.12.013.
DELGADO-BAQUERIZO M., POWELL J.R., HAMONTS K., REITH F., MELE P., BROWN M.V., DENNIS P.G., FERRARI B.C., FITZGERALD A., YOUNG A., SINGH B.K., BISSETT A. 2017. Circular linkages between soil biodiversity, fertility and plant productivity are limited to topsoil at the continental scale. New Phytologist. Vol. 215 p. 1186–1196. DOI 10.1111/nph.14634.
DENG J., ORNER E.P., CHAU J.F., ANDERSON E.M., KADILAK A.L., RUBINSTEIN R.L., BOUCHILLON G.M., GOODWIN R.A., GAGE D.J., SHOR L.M. 2015. Synergistic effects of soil microstructure and bacterial EPS on drying rate in emulated soil micromodels. Soil Biology and Biochemistry. Vol. 83 p. 116–124. DOI 10.1016/j.soilbio.2014.12.006.
DEVICTOR V., CLAVEL J., JULLIARD R., LAVERGNE S., MOUILLOT D., THUILLER W., VENAIL P., VILLÉGER S., MOUQUET N. 2010. Defining and measuring ecological specialization. Journal of Applied Ecology. Vol. 47 p. 15–25. DOI 10.1111/j.1365-2664.2009.01744.x.
DIDUKH Y.P. 2011. The ecological scales for the species of Ukrainian flora and their use in synphytoindication. Kyiv. Phytosociocentre pp. 176.
DOUGLAS D.D., BROWN D.R., PEDERSON N. 2013. Land snail diversity can reflect degrees of anthropogenic disturbance. Ecosphere. Vol. 4 (2), 28. DOI 10.1890/ES12-00361.1.
DUCHICELA J., SULLIVAN T.S., BONTTI E., BEVER J.D. 2013. Soil aggregate stability increase is strongly related to fungal community succession along an abandoned agricultural field chronosequence in the Bolivian Altiplano. Journal of Applied Ecology. Vol. 50 p. 1266–1273. DOI 10.1111/1365-2664.12130.
ELTON C. 1927. Animal ecology. New York. Macmillan Co. pp. 13.
GENTON M.G., KLEIBER W. 2015. Cross-covariance functions for multivariate geostatistics. Statistical Science. Vol. 30 p. 147–163. DOI 10.1214/14-STS487.
GORRES J.H., AMADOR J.A. 2010. Partitioning of habitable pore space in earthworm burrows. Journal of Nematology. Vol. 42 p. 68–72.
GRINNELL J. 1917. The niche-relationships of the California Thrasher. The Auk. Vol. 34 p. 427–433. DOI 10.2307/4072271.
HIRZEL A.H., HAUSSER J., CHESSEL D., PERRIN N. 2002. Ecological-niche factor analysis: How to compute habitat–suitability maps without absence data? Ecology. Vol. 83 p. 2027–2036. DOI 10.1890/0012- 9658(2002)083[2027:ENFAHT]2.0.CO;2.
HOLT R.D. 2009. Bringing the Hutchinsonian niche into the 21st century: Ecological and evolutionary perspectives. Proceedings of the National Academy of Sciences of the United States of America. Vol. 106 p. 19659–19665. DOI 10.1073/pnas.0905137106.
HOTOPP K. 2002. Land snails and soil calcium in central Appalachian mountain forest. Southeastern Naturalist. Vol. 1. No. 1 p. 27–44.
HUTCHINSON G.E. 1957. Concluding remarks. Cold Spring Harbor Symposia on Quantitative Biology. Vol. 22 p. 415–427. DOI 10.1101/sqb.1957.022.01.039.
IUSS Working Group WRB 2007. World Reference Base for Soil Resources 2006, first update 2007. World Soil Resources Reports. No. 103. Rome. FAO pp. 115.
JASTROW J.D., MILLER R.M. 1998. Soil aggregate stabilization and carbon sequestration. In: Soil processes and the carbon cycle. Eds. R. Lal, J.M. Kimble, R.F. Follett, B.A. Stewart. Boca Raton, FL. CRC Press p. 207–233.
JONES C.G., SHACHAK M. 1994. Desert snail’s daily grind. Natural History. Vol. 103 p. 56–61.
KASPER M., BUCHAN G.D., MENTLER A., BLUM W.E.H. 2009. Influence of soil tillage systems on aggregate stability and the distribution of C and N in different aggregate fractions. Soil and Tillage Research. Vol. 105 p. 192–199. DOI 10.1016/j.still.2009.08.002.
KATSCHINSKI N.A. 1956. Die mechanische Bodenanalyse und die Klassifikation der Boden nach ihrer mechanischen Zusammen-setzung [The mechanical soil analysis and the classification of the soil according to its mechanical composition]. Rapports Au Sixieme Congres International de La Science Du Sol. Paris, France p. 321–327.
KROETSCH D., WANG C. 2008. Particle size distribution. In: Soil sampling and methods of analysis. Eds. M.R. Carter, E.G. Gregorich. Boca Raton. CRC Press p. 713–726.
KUNAKH O.N., KRAMARENKO S.S., ZHUKOV A.V., KRAMARENKO A.S., YORKINA N.V. 2018a. Fitting competing models and evaluation of model parameters of the abundance distribution of the land snail Vallonia pulchella (Pulmonata, Valloniidae). Regulatory Mechanisms in Biosystems. Vol. 9 p. 198–202. DOI 10.15421/021829.
KUNAKH O.N., KRAMARENKO S.S., ZHUKOV A.V., ZADOROZHNAYA G.A., KRAMARENKO A.S. 2018b. Intra-population spatial structure of the land snail Vallonia pulchella (Müller, 1774) (Gastropoda; Pulmonata; Valloniidae). Ruthenica. Vol. 28 p. 91–99.
LEHMANN J., KLEBER M. 2015. The contentious nature of soil organic matter. Nature. Vol. 528 p. 60–68. DOI 10.1038/nature16069.
MILLAR A.J., WAITE S. 1999. Mollusks in coppice woodland. Journal of Conchology. Vol. 36 p. 25–48.
MINASNY B., MCBRATNEY A.B. 2005. The Matérn function as a general model for soil variograms. Geoderma. Vol. 128(3–4) p. 192–207. DOI 10.1016/j.geoderma.2005.04.003.
MUSTAFA A., MINGGANG X., ALI SHAH S.A., ABRAR M.M., NAN S., BAOREN W., ZEJIANG C., SAEED Q., NAVEED M., MEHMOOD K., NÚÑEZ- DELGADO A. 2020. Soil aggregation and soil aggregate stability regulate organic carbon and nitrogen storage in a red soil of southern China. Journal of Environmental Management. Vol. 270, 110894. DOI 10.1016/j.jenvman.2020.110894.
OADES J.M. 1993. The role of biology in the formation, stabilization and degradation of soil structure. Geoderma. Vol. 56 p. 377–400. DOI 10.1016/0016-7061(93)90123-3.
OKSANEN F.J., BLANCHET F.G., FRIENDLY M., KINDT R., LEGENDRE P., MCGLINN D., ..., WAGNER H. 2017. Vegan: Community Ecology Package. R package version 2.4-3. [online]. Vol. 1. [Access 25.10.2018]. Available at: http://CRAN.R-project.org/package=-vegan
R Core Team 2020. A Language and Environment for Statistical Computing. R: A language and environment for statistical computing [online]. R Foundation for Statistical Computing, Vienna, Austria. [Access 15.06.2020]. Available: https://www.R-project.org/
RILLIG M.C., MULLER L.A.H., LEHMANN A. 2017. Soil aggregates as massively concurrent evolutionary incubators. ISME Journal. Vol. 11 p. 1943–1948. DOI 10.1038/ismej.2017.56.
RIVERA J.I., BONILLA C.A. 2020. Predicting soil aggregate stability using readily available soil properties and machine learning techniques. Catena. Vol. 187, 104408. DOI 10.1016/j.catena.2019.104408.
SIX J., BOSSUYT H., DEGRYZE S., DENEF K. 2004. A history of research on the link between (micro)aggregates, soil biota, and soil organic matter dynamics. Soil and Tillage Research. Vol. 79(1) p. 7–31. DOI 10.1016/j.still.2004.03.008.
SODHI G.P.S., BERI V., BENBI D.K. 2009. Soil aggregation and distribution of carbon and nitrogen in different fractions under long-term application of compost in rice-wheat system. Soil and Tillage Research. Vol. 103 p. 412–418. DOI 10.1016/j.still.2008.12.005
THOMPSON L., THOMAS C.D., RADLEY J.M.A., WILLIAMSON S., LAWTON J.H. 1993. The effect of earthworms and snails in a simple plant community. Oecologia. Vol. 95 p. 171–178. DOI 10.1007/BF00323487.
THUILLER W., LAVOREL S., MIDGLEY G., LAVERGNE S., REBELO T. 2004. Relating plant traits and species distributions along bioclimatic gradients for 88 Leucadendron taxa. Ecology. Vol. 85 p. 1688– 1699. DOI 10.1890/03-0148.
VAŠÁT R., PAVLŮ L., BORŮVKA L., DRÁBEK O., NIKODEM A. 2013. Mapping the topsoil pH and humus quality of forest soils in the North Bohemian Jizerské hory Mts. region with ordinary, universal, and regression kriging: Cross-validation comparison. Soil and Water Research. Vol. 8 p. 97–104. DOI 10.17221/62/2012-swr.
WAGG C., BENDER S.F., WIDMER F. VAN DER HEIJDEN M.G.A. 2014. Soil biodiversity and soil community composition determine ecosys-tem multifunctionality. Proceedings of the National Academy of Sciences of the United States of America. Vol. 111 p. 5266–5270. DOI 10.1073/pnas.1320054111.
WHITTLE P. 1954. On stationary processes in the plane. Biometrika. Vol. 41 p. 434−449. DOI 10.1093/biomet/41.3-4.434.
WICK A.F., DANIELS W.L., NASH W.L., BURGER J.A. 2016. Aggregate recovery in reclaimed coal mine soils of SW Virginia. Land Degradation & Development. Vol. 27 p. 965–972. DOI 10.1002/ldr.2309.
WILPISZESKI R.L., AUFRECHT J.A., RETTERER S.T., SULLIVAN M.B., GRAHAM D.E., PIERCE E.M., ZABLOCKI O.D., PALUMBO A. V., ELIAS D.A. 2019. Soil aggregate microbial communities: Towards understanding microbiome interactions at biologically relevant scales. Applied and Environmental Microbiology. Vol. 85(14), e00324-19. DOI 10.1128/AEM.00324-19.
YORKINA N., MASLIKOVA K., KUNAH O., ZHUKOV O. 2018. Analysis of the spatial organization of Vallonia pulchella (Muller, 1774) ecological niche in Technosols (Nikopol manganese ore basin, Ukraine). Ecologica Montenegrina. Vol. 17 p. 29–45. DOI 10.37828/em.2018.17.5.
ZHANG S., WANG R., YANG X., SUN B., LI Q. 2016. Soil aggregation and aggregating agents as affected by long term contrasting management of an Anthrosol. Scientific Reports. Vol. 6 p. 1–11. DOI 10.1038/srep39107.
ZHUKOV O., KUNAH O., DUBININA Y., NOVIKOVA V. 2018. The role of edaphic, vegetational and spatial factors in structuring soil animal communities in a floodplain forest of the Dnipro River. Folia Oecologica. Vol. 45 p. 8–23. DOI 10.2478/foecol-2018-0002.

Date

2022.02.18

Type

Article

Identifier

DOI: 10.24425/jwld.2021.139945

Aims and scope

Journal of Water and Land Development - is a peer reviewed research journal published in English. Journal has been published continually since 1998. From 2013, the journal is published quarterly in the spring, summer, autumn, and winter. In 2011 and 2012 the journal was published twice a year, and between 1998 and 2010 it was published as a yearbook. Papers may report the results of experiments, theoretical analyses, design of machines and mechanization systems, processes or processing methods, new materials, new measurements methods or new ideas in information technology.


The Journal of Water and Land Development is the quarterly journal devoted to the publication of papers dealing with the following subjects:
- development of water resources in small river basins: assessment of surface and ground water resources, drought and floods, the methods of assessment of man activity influence on water resources;
- sustainable development of agricultural landscape: farm arrangement, wetlands protection, the role of forest and grassland;
- protection of water resources quality: non-point contamination from agriculture, villages and farms, methods of surface and ground water pro-tection;
- irrigation and drainage: management, maintenance and operation, water use, water-crop relations, the influence of drainage and irrigation on environment;
- hydraulic structures for water management in small basins, earth structures, river conservation, etc.

Editorial Board

Editorial Board:

Jan Franklin ADAMOWSKI – McGill University, Quebec, Canada

Tariq AFTAB – Aligarh Muslim University, Alīgarh, India ORCID logo0000-0002-5927-719X

Suleyman I. ALLAKHVERDIEV – Azerbaijan State University, Baku, Azerbaijan

Ozan ARTUN – Çukurova University, Adana, Turkey ORCID logo0000-0002-6122-2729

Habib R. ATHAR – Institute of Pure and Applied Biology, Zakariya University, Multan, Pakistan ORCID logo0000-0002-8733-3865

Atilgan ATILGAN – Alanya Alaaddin Keykubat University, Alanya, Turkey

Okke BATELAAN – Flinders University, Adelaide, Australia ORCID logo0000-0003-1443-6385

Marian BRESTIC – Slovak University of Agriculture, Nitra, Slovakia

Filippo BUSSOTTI – University of Firenze, Firenze, Italy

Shiguo CHEN – Nanjing Agricultural University, Nanjing, China

Ralf DANNOWSKI – Leibniz-Zentrumfür Agrarlandschaftsforschung, Brandenburg, Germany ORCID logo0000-0002-9331-672X

Nabil ELSHERY–Tanta University, Tanta, Egypt ORCID logo0000-0001-9542-1913

Domenica FARCI – Università degli studi di Cagliari, Cagliari, Italy

GOVINDJEE – University of Illinois at Urbana-Champaign, Urbana, USA ORCID logo0000-0003-3774-0638

Francisco GUERRERO – Universidad de Jaén, Jaén, Spain

Salim HEDDAM – Université 20 août 1955-Skikda, Skikda, Algeria ORCID logo0000-0002-8055-8463

Tomasz HORACZEK – Institute of Technology and Life Sciences, Falenty, Poland ORCID logo0000-0001-5534-7544

Miroslava KAČÁNIOVÁ – Slovak University of Agriculture, Nitra, Slovakia

Jan KAZAK – Wroclaw University of Environmental and Life Sciences, Poland

Sungwon KIM – Dongyang University, Yeongju, Republic of Korea ORCID logo0000-0002-9371-8884

Ozgur KISI – University of Applied Sciences, Lübeck, Germany ORCID logo0000-0001-7847-5872

Peter KOVALENKO – Institute of Water Problems and Melioration of the National Academy of Agrarian Sciences, Ukraine

Nour-Eddine LAFTOUHI – Cadi Ayyad University, Marrakesh, Morocco

Ramin LOTFI – Dryland Agricultural Research Institute, AREEO, Maragheh, Iran

Grażyna MASTALERCZUK – Warsaw University of Life Sciences – SGGW, Warsaw, Poland

Maria MRÓWCZYŃSKA – University of Zielona Góra, Poland ORCID logo0000-0002-4762-3999

Samar OMAR – Tanta University, Tanta, Egypt

Dario PIANO – Università degli studi di Cagliari, Cagliari, Italy

Karol PLESIŃSKI – Agricultural University in Cracow, Cracow, Poland

Majeti Narasimha Vara PRASAD – University of Hyderabad, Hyderabad, India

Mahendra RAI – SGB Amravati University, Maharashtra, India

Marcin RAPACZ – University of Agriculture, Cracow, Poland

Manzer H. SIDDIQUI – King Saud University, Riyadh, Saudi Arabia

Edyta SIERKA – University of Silesia, Katowice, Poland

Ewa SOBIESZCZUK-NOWICKA – Adam Mickiewicz University in Poznań, Poznań, Poland ORCID logo0000-0002-6603-0582

Kazimierz STRZAŁKA – Jagiellonian University, Cracow, Poland

Wayan SUPARTA – Institute Technology National Yogyakarta, Yogyakarta, Indonesia

Sawsan TAWKAZ – Consultative Group on International Agricultural Research, Montpellier, France

Adam TAŃSKI – West Pomeranian University of Technology, Szczecin, Poland

Renata TOBIASZ-SALACH – Rzeszow University, Rzeszow, Poland

Katarzyna TURNAU – Jagiellonian University, Cracow, Poland

Martin J. WASSEN – Utrecht University, Utrecht, Netherlands

Marek ZIVCAK – Slovak University of Agriculture, Nitra, Slovak Republic









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