Journal of Range and Watershed Managment

Current Issue

By Issue

By Author

Author Index

Keyword Index

About Journal

Aims and Scope

Editorial Board

Publication Ethics

Indexing and Abstracting

Related Links

FAQ

Peer Review Process

News

Journal Metric

Reviewers

Guide for Reviewers

Superior reviewers

Studying the effect of the canopy of Pteropyrum aucheri Jaub. & Spach on the soil seed bank in order to restore the medicinal species Pergularia tomentosa L. in southern Kerman province

Document Type : Research Paper

Authors

1 Rangeland Management Department, Faculty of Natural Resources, Tarbiat Modares University, Tehran, Iran

2 Department of Plant Biology, University of Jiroft, Jiroft, Iran

10.22059/jrwm.2025.387931.1795

Abstract

In this study, the effect of the canopy of Pteropyrum aucheri on the soil seed bank was investigated in southern Kerman province, Sehchah village rangelands. By studying the seed bank at two depths of 0-5 and 5-10 cm under and outside the canopy of this shrub species, the potential of the soil seed bank in preserving and recovering of the valuable medicinal species Pergularia tomentosa was evaluated. For this purpose, 15 individuals of the P. aucheri were selected in which P. tomentosa could also be observed under the canopy of P. aucheri. Soil sampling was carried out from under and outside the canopy from both depths, totally of 60 samples. Under the canopy (and also outside the canopy), 10 soil augers were taken. The soil samples were transferred to the greenhouse in Faculty of Natural Resources, Tarbiat Modares University, and the species present in the soil were identified using the seed germination method. In the greenhouse cultivation, a total of 2164 seeds germinated. Of these, 1486 seeds belonged to the under-canopy (1156 seeds at the upper depth and 330 seeds at the lower depth) and 678 seeds belonged to the outside of the canopy (341 seeds at the upper depth and 337 seeds at the lower depth). The density of the seed bank at the upper depth was significantly higher in the under-canopy than outside the canopy. This study showed that the valuable species of P. tomentosa not only had a seed bank under the canopy but also did not form a canopy outside the canopy of P. aucheri. Therefore, for the conservation and restoration of this species, it is not possible to rely on soil seed bank.

Keywords

References
Armenta Calderón, A.D., Moreno-Salazar, S.F., Furrazola Gómez, E., & Ochoa-Meza, A. (2019). Arbuscular mycorrhiza, carbon content and soil aggregation in Sonoran Desert plants. Spanish Journal of Soil Science, 9, 42-53.
Auffret, A.G., Ladouceur, E., Haussmann, N.S., Daouti, E., Elumeeva, T.G., Kačergytė, I., Knape, J., Kotowska, D., Low, M., Onipchenko, V.G., Paquet, M., Rubene, D. & Plue, J. (2024) A global database of soil seed bank richness, density, and abundance. Ecology, 105 (11), e4438. doi: 10.1002/ecy.4438. Epub 2024 Oct 2. PMID: 39355992.
Chaideftou, E., Thanos, C. A., Bergmeier, E., Kallimanis, A., & Dimopoulos, P. (2009). Seed bank composition and above-ground vegetation in response to grazing in sub-Mediterranean oak forests Plant Ecology, 201(1), 255-265.
Chambers, J. C., & MacMahon, J. A. (1994). A day in the life of a seed: movements and fates of seeds and their implications for natural and managed systems. Annual Review of Ecology and Systematics,11(1), 263-292.
Chandregowda, M.H., Murthy, K., & Bagchi, S. (2018). Woody shrubs increase soil microbial functions and multifunctionality in a tropical semi-arid grazing ecosystem. Journal of Arid Environments, 155, 65-72.
Douh, C., Moussoumbou, C., Mabengo, B., Malonga, L., Nsongola, G., Miafouna, T., Mahoua, A., Ndzaï, S. & Koubouana, F. (2023). Soil Seed Bank Characteristics of the Mbe and Nguela Shrub Savannas, and Implications for the Reforestation, Republic of Congo. Open Journal of Ecology, 13, 435-453.
Erfanzadah, R., Barzegaran, F., Saber Amoli, S. & Pétillon, J. (2020). The effect of shrub community on understory soil seed bank with and without livestock grazing. Community Ecology, 23, 75–85.
Erfanzadeh, R. (2021). Soil seed bank ecology. Tarbiat Modares University Press, 271 p. (In Persian)
Funk, F.A., Loydi, A., Peter, G., & Distel, R.A. (2019). Effect of grazing and drought on seed bank in semiarid patchy rangelands of northern Patagonia, Argentina. International Journal of Plant Sciences, 180, 337-344.
Ghahreman, A. (1978-2001). Colorful flora of Iran. Research Institute of Forests and Rangelands, Tehran. (In Persian)
Gomaa, N.H., Hegazy, A.K., & Alhaithloul, H.A.S. (2023). Facilitation by Haloxylon persicum shrubs enhances density and richness of soil seed bank of annual plants in a hyper-arid ecosystem. Plants, 12, 1276. https://doi.org/10.3390/ plants12061276
Gross, K. L. (1990). A comparison of methods for estimating seed numbers in the soil. The Journal of Ecology, 198 (3),1079-1093.
Hindi, S. S. (2013). Calotropis procera: The miracle shrub in the Arabian Peninsula. International Journal of Science Investment, 2(16), 48-57.
Hosseini, S.H., & Erfanzadeh, R. (2011). Evaluation of preference value and forage protein variations of plant species in Kahnuj rangelands of Kerman Province. Animal Sciences Journal 91(1), 58-67. (In Persian)
Hosseini, S.H., Azarnivand, H., Ayyari, M., Zare Chahooki, M.A., Erfanzadeh, R., Piacente, S. & Kheirandish, R. (2018). Modeling potential habitats for Pergularia tomentosa using maximum entropy model and effect of environmental variables on its quantitative characteristics in arid rangelands, southeastern Iran.
Hutchings, M.J. (1986). Plant population biology. In: Moore, P.D., Chapman, S.B. (Eds.), Methods in Plant Ecology, 2nd ed. Blackwell, Oxford, UK, pp. 377–435.
Kellerman, M.J.S. (2004). Seed bank dynamics of selected vegetation types in Maputaland, Sourth Africa. Sciences Thesis, Faculty of Natural and Agricultural Sciences University of Pretoria.107 pp.
Liu, J., Li, L., Chen, J., Zhang, J., Zhu, N., Wang, C., Luo, Y., Xu, N., Bao, Y. & Yan, Y. (2024). Soil seed bank density enhanced at shrub patches due to grazing in a shrub-encroached grassland. Ecosystems, 27, 1143–1155.
Lopez, R. P. (2003). Soil seed banks in the semi-arid Prepuna of Bolivia. Plant Ecology, 168(1), 85-92.
Losapio, G., Pugnaire, F.I., Brien, M.J., & Schöb, C. (2018). Plant life history stage and nurse age change the development of ecological networks in an arid ecosystem, Oikos, 127(9), 1390-1397.
Lu, R., Liu, Y.F., Jia, C., Huang, Z., Liu, Y., Hea, H., Liu, B.R., Wang, Z.J., Zhenga, J., & Wua, G.L. (2019). Effects of mosaic-pattern shrub patches on runoff and sediment yield in a wind-water erosion crisscross region. Catena, 174, 199-205.
Marone, L., Cueto, V. R., Milesi, F. A., & Casenave, J. L. D. (2004). Soil seed bank composition over desert microhabitats: patterns and plausible mechanisms. Canadian Journal of Botany, 82(12), 1809-1816.
Menezes, J. C., Cruz Neto, O. C., Azevedo, I. F. P., Machado, A. O., & Nunes, Y. R. F. (2019). Soil seed bank at different depths and light conditions in a dry forest in Northern Minas Gerais. Floresta e Ambiente, 26(2), e20170314.
Motamdi, J., Jalili, A., Khodaghli, M., Khlifehzadeh, R., Sefidkon, F., & Arzani, A. (2022). The need to pay serious attention to "rainy fields" in the production of forage and medicinal plants. Nature of Iran, 6, 7-24. (In Persian)
Mozaffarian, V. (2004). Trees and shrubs in Iran. Farhang-e-Moaser Press. (In Persian)
Olano, J.M., Caballero I., & Escudero, A. (2012). Soil Seed Bank Recovery Occurs More Rapidly than Expected in Semi-Arid Mediterranean Gypsum Vegetation. Annals of Botany, 109(25), 299-307.
Rebollo, S., Milchunas, D.G., & Noy-Meir, I. (2005). Refuge Effects of a Cactus in Grazed Short-Grass Steppe. Journal of Vegetation Science, 1(16), 85-92.
Rechinger, K.H. (1963-2012). Flora Iranica. Vol. 1-176, Akademische Druck U Verlagsanstalt, Graz.
Saatkamp, A., Poschlod, P., & Venable, D. L. (2014). The functional role of soil seed banks in natural. In Seeds: The ecology of regeneration in plant communities. CAB International.
Samsam Shariat, H. )1989(. Analysis and identification of medical plants materials. ­Mashal publication. Isfahan. (In Persian)
Shahbazian, R. (2012). Impact of shrubland patches on soil seed bank characteristics in mountainous grasslands. MSc.thesis, Department of Natural Resources, Tarbiat Modarres University, 66 pp. (In Persian)
Stocklin, J.& Fischer. M. (1999). Plant with longer- lived seeds has lower local extinction rates in grassland remnants. Oecologia, 120(3), 539- 543.
Swanson, E.K., Sheley, R.L., & James, B.J. (2021). Shrubs facilitate perennial bunchgrass recruitment in drylands under experimental precipitation change. Journal of Arid Environments, 187, 104432.
Tessema, Z.K., Ejigu B., & Nigatu, L. (2017). Tree species determine semi-arid African tree species determine soil seed bank composition and its similarity with understory vegetation in a semi-arid African Savanna. Ecological Processes, 6(1), 9-19.
Thompson, K. (2000). The functional ecology of seed banks. In M. Fenner (Ed.), Seeds: The ecology of regeneration in plant communities. CAB International.
Tóth, Á., Deák, B., Kelemen, A., Kiss, R., Lukács, K., Bátori, Z. & Valkó, O. (2024). Vertical stratification of the soil seed bank in wet grasslands and its implications for restoration.  Community Ecology, https://doi.org/10.1007/s42974-024-00226-1.
Vetaas, O. R. (1993). Spatial and temporal vegetation changes along a moisture gradient in northeastern Sudan. Biotropica, 245(1), 164-175.
Vinton, M. A., & Burke, I. G. (1995). Interactions between Individual Plant Species and Soil Nutrient Status in Short Grass Steppe. Ecology, 76, 1116-1133.
Yazdani, M., Erfanzadeh, R. & Mosleh Arani, A. (2020). Comparison of the effect of three woody species of Daphne mezerum, Amygdalus scopaia and Ebenus stellata on the diversity, richness and production of understory herbaceous species. Range and Watershed Management, 73, 663-673. (In Persian).
Journal of Range and Watershed Managment
Volume 78, Issue 3
September 2025
Pages 385-398
Files
History
  • Receive Date: 31 December 2024
  • Revise Date: 21 March 2025
  • Accept Date: 05 April 2025
Share
How to cite
Statistics