Wpływ warunków wodnych i intensywności użytkowania na bilans węgla w glebach pobagiennych

Turbiak, Janusz; Miatkowski,  Zygmunt

doi:10.17306/J.NPT.2011.5.97

ISSN 1897-7820

Nauka Przyroda Technologie

Science Nature Technologies

Scientific journal presents original papers and articles relevant to all aspects of agricultural sciences.

2019 Vol. 13 Issue 2
2019 Vol. 13 Issue 1
2018 Vol. 12 Issue 4
2018 Vol. 12 Issue 3
2018 Vol. 12 Issue 2
2018 Vol. 12 Issue 1
2017 Vol. 11 Issue 4
2017 Vol. 11 Issue 3
2017 Vol. 11 Issue 2
2017 Vol. 11 Issue 1
2016 Vol. 10 Issue 4
2016 Vol. 10 Issue 3
2016 Vol. 10 Issue 2
2016 Vol. 10 Issue 1
2015 Vol. 9 Issue 4
2015 Vol. 9 Issue 3
2015 Vol. 9 Issue 2
2015 Vol. 9 Issue 1
2014 Vol. 8 Issue 4
2014 Vol. 8 Issue 3
2014 Vol. 8 Issue 2
2014 Vol. 8 Issue 1
2013 Vol. 7 Issue 4
2013 Vol. 7 Issue 3
2013 Vol. 7 Issue 2
2013 Vol. 7 Issue 1
2012 Vol. 6 Issue 4
2012 Vol. 6 Issue 3
2012 Vol. 6 Issue 2
2012 Vol. 6 Issue 1
2011 Vol. 5 Issue 6
2011 Vol. 5 Issue 5
2011 Vol. 5 Issue 4
2011 Vol. 5 Issue 3
2011 Vol. 5 Issue 2
2011 Vol. 5 Issue 1
2010 Vol. 4 Issue 6
2010 Vol. 4 Issue 5
2010 Vol. 4 Issue 4
2010 Vol. 4 Issue 3
2010 Vol. 4 Issue 2
2010 Vol. 4 Issue 1
2009 Vol. 3 Issue 4
2009 Vol. 3 Issue 3
2009 Vol. 3 Issue 2
2009 Vol. 3 Issue 1
2008 Vol. 2 Issue 4
2008 Vol. 2 Issue 3
2008 Vol. 2 Issue 2
2008 Vol. 2 Issue 1
2007 Vol. 1 Issue 4
2007 Vol. 1 Issue 3
2007 Vol. 1 Issue 2
2007 Vol. 1 Issue 1

Comming issue

Acta Stientiarum Polonorum Technologia Alimentaria

Acta Stientiarum Polonorum Silvarum Colendarum Ratio et Industria Lignaria

Wydawnictwo Akademii Rolniczej w Poznaniu

Journal of Agribusiness and Rural Development

2011 volume 5 issue 5 #97

Janusz Turbiak, Zygmunt Miatkowski

Effect of water conditions and use intensity on carbon balance in post-bog soils

Summary.

Results of two-year studies of CO2 emission and uptake in grassland ecosystems on post-bog are presented in the paper. It was found that the total CO2 emission from peat-muck soils of moist and drying complexes was on average 34.6% higher than from peat-muck soil of wet complex, and 39.8% higher than from mucky soils of periodically dry complex. Higher CO2 emission from deeper drained peat-muck soils was connected mainly with higher rate of organic soil mass mineralization. Agriculturally used post-bog soils were a source of CO2 emission. Mean CO2 losses in the growing season were from 10.6 Mg·ha-1 on a wet complex to 29.9 Mg·ha-1 on an extensively used moist complex. It was found that on extensive way of peat-muck soils use, under the condition of low ground water level, causes increased mineralization of soil organic mass.

Key words: water conditions, use intensity, carbon balance, post-bog soils

Full text available in Polish in Adobe Acrobat format:
https://www.npt.up-poznan.net/pub/art_5_97.pdf

Streszczenie w języku polskim:
https://www.npt.up-poznan.net/tom5/zeszyt5/streszczenie-97.html

For citation:

MLA	Turbiak, Janusz, and Zygmunt Miatkowski. "Wpływ warunków wodnych i intensywności użytkowania na bilans węgla w glebach pobagiennych." Nauka Przyr. Technol. 5.5 (2011): #97.
APA	Janusz Turbiak, Zygmunt Miatkowski (2011). Wpływ warunków wodnych i intensywności użytkowania na bilans węgla w glebach pobagiennych. Nauka Przyr. Technol. 5 (5), #97
ISO 690	TURBIAK, Janusz, MIATKOWSKI, Zygmunt. Wpływ warunków wodnych i intensywności użytkowania na bilans węgla w glebach pobagiennych. Nauka Przyr. Technol., 2011, 5.5: #97.

Corresponding address:
Janusz Turbiak
Kujawsko-Pomorski Ośrodek Badawczy w Bydgoszczy
Instytut Technologiczno-Przyrodniczy w Falentach
ul. Glinki 60
85-174 Bydgoszcz
Poland

e-mail: j.turbiak@itep.edu.pl

Accepted for print: 13.06.2011