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2018 | 162 | 07 |

Tytuł artykułu

Czy zakładanie upraw dębowych metodą biologicznej racjonalizacji sprzyja zachowaniu leśnych zgrupowań skoczogonków (Collembola, Hexapoda)?

Treść / Zawartość

Warianty tytułu

EN
Does alternative methods of oak plantations establishment create favourable conditions for forest collembolan assemblages (Collembola, Hexapoda)?

Języki publikacji

PL

Abstrakty

EN
Alternative methods of oak cultivation aim at reducing the cost of establishment of young plantations and decrease in the expenditure on their tending. In these methods, the corridors consisting of oak seedlings planted in the rows or isolated groups of twenty six seedlings are enclosed by stripes or patches without intervention left for natural succession. The restriction in site preparation on these areas and spontaneous development of young generation of trees are assumed to create favourable conditions for many forest organisms and, in results, significantly improve biological diversity of the managed forests. The aim of the study was to recognize the response of forest collembolan assemblages on alternative methods of establishment of oak plantations. The study was performed in the Forest Experimental Station in Rogów (Central Poland). In a mature stand on moderately humid mixed deciduous forest site, on clear−cut and on oak young plantations made by corridor and tree groups methods, fifteen study plots were established. In case of young plantations, these plots encompassed both artificially planted corridors or tree groups and adjacent fragments of plantation left for natural succession. Soil samples were taken in June and September 2014 and, using a simplified Tullgren apparatus, 18 thousands of collembolan specimens belonging to 84 taxa were identified. Our study proved that clear−cut and site preparation by rotary tiller on moderately humid mixed deciduous forest had a negative impact on Collembola assemblages, because caused a reduction in species number and abundance. However, the establishment of oak plantations by alternative methods, consisting in abandonment an artificial planting on some patches of renewed plots, significantly mitigate negative effects of clear−cut and reforestation on collembolan assemblages. The species number and abundance of springtails on patches left for spontaneous succession were distinctly higher than in artificially planted corridors or groups of trees in case of all studied plantations. Furthermore, it seems that corridor method in oak plantations establishment is advantageous for forest springtails, because the number of specimens per square meter on corridor plantation was higher than in tree group method. The beneficial effect on soil fauna of alternative methods of oak cultivation described in this paper weighs in favour of their wider application in silviculture.

Wydawca

-

Czasopismo

Rocznik

Tom

162

Numer

07

Opis fizyczny

s.580-589,rys.,bibliogr.

Twórcy

autor
  • Katedra Ochrony Lasu i Ekologii, Szkoła Główna Gospodarstwa Wiejskiego w Warszawie, ul.Nowoursynowska 159, 02-776 Warszawa
autor
  • Katedra Ochrony Lasu i Ekologii, Szkoła Główna Gospodarstwa Wiejskiego w Warszawie, ul.Nowoursynowska 159, 02-776 Warszawa

Bibliografia

  • Addison J. A. 1996. Harvesting and site preparation impacts on soil microarthropods. W: Smith C. R., Crook G. W. [red.]. Advancing Boreal Mixedwood Management in Ontario: Proceedings of a Workshop. 186-189.
  • Andrzejczyk T. 2011. Biologiczna racjonalizacja w hodowli dębu. W: Paluch R. [red.]. Półnaturalna hodowla lasu – przeszłość, teraźniejszość i przyszłość. Instytut Badawczy Leśnictwa, Sękocin Stary. 103-118.
  • Andrzejczyk T. 2013. Zakładanie upraw dębowych oparte na biologicznej racjonalizacji. Las Polski 5: 14-16.
  • Battigelli J. P., Spence J. R., Langor D. W., Berch S. M. 2004. Short-term impact of forest soil compaction and organic matter removal on soil mesofauna density and oribatid mite diversity. Canadian Journal of Forest Research 34: 1136-1149.
  • Bednarek A. 1993. Warunki fizjograficzne. Klimat. W: Zielony R. [red.]. Warunki przyrodnicze lasów doświadczalnych SGGW w Rogowie. Wydawnictwo SGGW, Warszawa. 24-41.
  • Chapin F. S., Walker B. H., Hobbs R. J., Hooper D. U., Lawton J. H., Sala O. E., Tilman D. 1997. Biotic control over the functioning of ecosystems. Science 277 (5325): 500-504.
  • Chauvat M., Zaitsev A. S., Wolters V. 2003. Successional changes of Collembola and soil microbiota during forest rotation. Oecologia 137 (2): 269-276.
  • Dittmer S., Schrader S. 2000. Longterm effects of soil compaction and tillage on Collembola and straw decomposition in arable soil. Pedobiologia 44: 527-538.
  • Eisenhauer N., Sabais A. C., Scheu S. 2011. Collembola species composition and diversity effects on ecosystem functioning vary with plant functional group identity. Soil Biology and Biochemistry 43 (8): 1697-1704.
  • Hammer Ř., Harper D. A. T., Ryan P. D. 2001. PAST: Paleontological Statistics Software Package for Education and Data Analysis. Palaeontologia Electronica 4 (1): 9.
  • Hasegawa M., Fukuyama K., Makino S. I., Okochi I., Goto H., Mizoguchi T., Sakata T., Tanaka H. 2006. Collembolan community dynamics during deciduous forests regeneration in Japan. Pedobiologia 50 (2): 117-126.
  • Huhta V. 1976. Effects of clear-cutting on numbers, biomass and community respiration of soil invertebrates. Ann. Zool. Fennica 13: 63-80.
  • Kladivko E. J. 2001. Tillage systems and soil ecology. Soil and Tillage Research 61 (1): 61-76.
  • Konecka-Betley K., Czępińska-Kamińska D., Janowska E. 1993. Gleby – właściwości i typologia. W: Zielony R. [red.]. Warunki przyrodnicze lasów doświadczalnych SGGW w Rogowie. Wydawnictwo SGGW, Warszawa. 48-65.
  • Kuznetsova N. A. 2003. Habitat humidity and Collembolan distribution. Zoologichesky Zhurnal 82: 239-247.
  • Lavelle P., Spain A. V. 2001. Soil ecology. Springer Science & Business Media.
  • Schrader S., Lingnau M. 1997. Influence of soil tillage and soil compaction on microarthropods in agricultural land. Pedobiologia 41: 202-209.
  • Setälä H., Marshall V. G.1994. Stumps as a habitat for Collembola during succession from clear-cuts to old-growth Douglas-fir forests. Pedobiologia 38: 307-326.
  • Siira-Pietikäinen A., Haimi J. 2009. Changes in soil fauna 10 years after forest harvestings: Comparison between clear felling and green-tree retention methods. Forest Ecology and Management 258 (3): 332-338.
  • Siira-Pietikäinen A., Haimi J., Siitonen J. 2003. Short-term responses of soil macroarthropod community to clear felling and alternative forest regeneration methods. Forest Ecology and Management 172 (2): 339-353.
  • Sławska M. 2002a. Collembola responses to – communities of stand patches retained on logging area. Annals of Warsaw Agricultural University. Forestry and Wood Technology 52: 3-15.
  • Sławska M. 2002b. Wpływ sposobu przygotowania gleby na zgrupowania skoczogonków (Collembola, Apterygota) boru sosnowego. Sylwan 146 (11): 63-72.
  • Sławska M. 2004. Rola skoczogonków (Collembola, Hexapoda) w funkcjonowaniu ekosystemów leśnych. Sylwan 148 (7): 53-71.
  • Sławska M., Sławski M. 2017. Wpływ suszy na ściółkowo-glebowe zgrupowania skoczogonków (Collembola, Hexapoda) w lesie mieszanym. Sylwan 161 (1): 71-80.
  • Verhoef H. A., Brussaard L. 1990. Decomposition and nitrogen mineralization in natural and agroecosystems: the contribution of soil animals. Biogeochemistry 11 (3): 175-211.

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Bibliografia

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