Soil Chemical and Microbial Properties in a Mixed Stand of Spruce and Birch in the Ore Mountains (Germany)—A Case Study

Schua, Karoline, Wende, Stefan, Wagner, Sven, Feger, Karl-Heinz

12 February 2016

A major argument for incorporating deciduous tree species in coniferous forest stands is their role in the amelioration and stabilisation of biogeochemical cycles. Current forest management strategies in central Europe aim to increase the area of mixed stands. In order to formulate statements about the ecological effects of mixtures, studies at the stand level are necessary. In a mixed stand of Norway spruce (Picea abies (L.) Karst.) and silver birch (Betula pendula Roth) in the Ore Mountains (Saxony, Germany), the effects of these two tree species on chemical and microbial parameters in the topsoil were studied at one site in the form of a case study. Samples were taken from the O layer and A horizon in areas of the stand influenced by either birch, spruce or a mixture of birch and spruce. The microbial biomass, basal respiration, metabolic quotient, pH-value and the C and N contents and stocks were analysed in the horizons Of, Oh and A. Significantly higher contents of microbial N were observed in the Of and Oh horizons in the birch and in the spruce-birch strata than in the stratum containing only spruce. The same was found with respect to pH-values in the Of horizon and basal respiration in the Oh horizon. Compared to the spruce stratum, in the birch and spruce-birch strata, significantly lower values were found for the contents of organic C and total N in the A horizon. The findings of the case study indicated that single birch trees have significant effects on the chemical and microbial topsoil properties in spruce-dominated stands. Therefore, the admixture of birch in spruce stands may distinctly affect nutrient cycling and may also be relevant for soil carbon sequestration. Further studies of these functional aspects are recommended.

Soil respiration, microbial respiration and mineralisation in soils of montane rainforests of Southern Ecuador: influence of altitude

Iost, Susanne

07 December 2007

Impacts of land use and climate change in tropical forests on the global carbon budget are of principal interest in the recent research, as these forests amount to about 48 % of the world’s forested area. Interest has been focused on lowland tropical forests mainly, but tropical montane forests occupy about 20 % of all tropical forests. Soils of tropical montane forests are frequently waterlogged and characterised by high soil organic carbon stocks. Furthermore, along altitudinal gradients, changes in stand structure and net primary production can be observed that have not been fully explained yet. As causes reduced microbial activity and nitrogen turnover in soils of tropical montane forests have been suggested. Against the background of climate change, carbon turnover mechanisms in soils of these forests are of special interest. The present study therefore aimed at determining and quantifying relevant carbon and nitrogen pools as well as nitrogen mineralisation potentials. Furthermore, size, activity, and structure of microbial biomass were characterised. The collected data was supposed to provide basic knowledge on carbon and nitrogen cycling in tropical montane forest soils. Thus, evaluation of the susceptibility of their carbon stocks for climate change as well as nitrogen and carbon limitation of microbial organic matter decomposition was possible. Field work of this study was conducted during 2003–2005 at an altitudinal transect that in- cluded five study sites between 1 050 and 3 060 m amsl. Total soil respiration was recorded biweekly over two years, the contribution of roots to total soil CO2 efflux over one year. Soils of the study sites were sampled twice and biochemical and microbial parameters were determined.

info:eu-repo/classification/ddc/630

ddc:630

Soil Chemical and Microbial Properties in a Mixed Stand of Spruce and Birch in the Ore Mountains (Germany) - A Case Study

Schua, Karoline, Wende, Stefan, Wagner, Sven, Feger, Karl-Heinz

27 July 2015

A major argument for incorporating deciduous tree species in coniferous forest stands is their role in the amelioration and stabilisation of biogeochemical cycles. Current forest management strategies in central Europe aim to increase the area of mixed stands. In order to formulate statements about the ecological effects of mixtures, studies at the stand level are necessary. In a mixed stand of Norway spruce (Picea abies (L.) Karst.) and silver birch (Betula pendula Roth) in the Ore Mountains (Saxony, Germany), the effects of these two tree species on chemical and microbial parameters in the topsoil were studied at one site in the form of a case study. Samples were taken from the O layer and A horizon in areas of the stand influenced by either birch, spruce or a mixture of birch and spruce. The microbial biomass, basal respiration, metabolic quotient, pH-value and the C and N contents and stocks were analysed in the horizons Of, Oh and A. Significantly higher contents of microbial N were observed in the Of and Oh horizons in the birch and in the spruce-birch strata than in the stratum containing only spruce. The same was found with respect to pH-values in the Of horizon and basal respiration in the Oh horizon. Compared to the spruce stratum, in the birch and spruce-birch strata, significantly lower values were found for the contents of organic C and total N in the A horizon. The findings of the case study indicated that single birch trees have significant effects on the chemical and microbial topsoil properties in spruce-dominated stands. Therefore, the admixture of birch in spruce stands may distinctly affect nutrient cycling and may also be relevant for soil carbon sequestration. Further studies of these functional aspects are recommended.

Birke

Fichte

Baumarten

PH-Wert

Bodenatmung

Humus

TU Dresden

Publikationsfonds

birch

spruce

tree species effects

pH-value

soil respiration

humus

topsoil

Technical University Dresden

Publication funds

ddc:630

ddc:640

ddc:690

rvk:ZA 16000

rvk:ZI 0001

The impact of canopy composition on the nutritional statusof an admixed spruce and beech forest at Solling,central Germany / Der Einfluss der Zusammensetzung des Kronenraums auf den Nährstoffstatus eines Fichten-Buchen Mischwalds im Solling

Hojjati, Seyed Mohammad

14 February 2008

No description available.

500 Naturwissenschaften

YQO 000

Forest Sciences and Forest Ecology

Kronenraumklassen

Stoffeinträge

Kronentraufe

Leaching

Streufall

Streuzersetzung

15N

Bodenlösung

Bodenatmung

Bodenchemie.

Canopy classes

Element input

Throughfall

Leaching

Litterfall

Decomposition

15N

Soil respiration

Soil solution

Soil chemistry.

48.32 Bodenkunde

Bodenbewertung

Gärprodukte aus Biogasanlagen im pflanzenbaulichen Stoffkreislauf

Wragge, Verena

06 January 2014

Biogas im Rahmen einer nachhaltigen Landwirtschaft zu erzeugen bedeutet u. a., die anfallenden Gärprodukte als Dünger zu verwenden, um die Verluste im Nährstoffkreislauf zu minimieren. Die vorliegende Arbeit geht der Frage nach, welche Wirkungen Gärprodukte aus der Biogasproduktion bei der Verwendung als Dünger auf Boden und Pflanzen haben. Die Ergebnisse von Parzellenfeld- und Praxisversuchen, in denen Gärprodukte aus der Mono- und Kofermentation von Energiepflanzen im Vergleich zu N-Mineraldünger untersucht wurden, werden vorgestellt und diskutiert. Zur Beurteilung der Wirkungen auf den Boden wurden bodenchemische und bodenbiologische Parameter herangezogen sowie die Abbaustabilität der organischen Substanz der Gärprodukte gemessen. Zur Untersuchung der Wirkungen auf die Pflanzen wurden verschiedene Wachstums-, Entwicklungs-, Ertrags- und Qualitätsparameter erfasst und ausgewertet. Die Gärprodukte zeichnen sich durch relativ hohe Ammoniumgehalte sowie durch hohe pH-Werte aus. Das Pflanzenwachstum und die Erträge werden durch die Düngung mit Gärprodukten gesteigert, wobei die Wirkung trotz der hohen Ammoniumgehalte deutlich hinter denen des N-Mineraldüngers zurückbleibt. Die berechneten Nährstoffbilanzen weisen auf deutliche Unterschiede zwischen den untersuchten Gärprodukten und Kulturarten, aber auch zwischen den beiden Versuchsjahren hin. Die Ergebnisse zeigen jedoch, dass durch die Verwendung von Gärprodukten als Dünger wichtige Pflanzennährstoffe rezykliert werden können, wodurch der Einsatz von Mineraldüngern reduziert werden kann. Hinsichtlich der Wirkungen von Gärprodukten auf den Boden zeichnen die umfangreichen Analysen ein differenziertes Bild. Die mikrobiologischen Umsetzungsprozesse im Boden werden insbesondere in den ersten Tagen nach der Ausbringung gefördert. Weiterer Forschungsbedarf wird insbesondere hinsichtlich der Wirkungen auf die Bodenmakrofauna aufgezeigt. / Producing biogas in a sustainable agricultural system means using digestates as fertilizers, in order to minimize leaks in nutrient cycles. The aim of this work is to investigate effects on soil and plants after field application of digestates. In this respect, results from plot- and practical fieldexperiments are analyzed to compare digestates from mono- and from co-fermentation of energy crops in comparison to mineral N-fertilizer. Soil chemical and biological effects were assessed on the basis of selected parameters, one of which was the stability of the organic matter applied. Effects on crops have been evaluated by measuring growth, development, yields, and quality of the crops. The digestates have been analyzed and showed especially high amounts of ammonium and a high pH-value. Plant growth and yields increased as a result of fertilization. However, despite high amounts of ammonia present in digestates, fertilizing effects have been much lower compared to mineral N-fertilization. The calculated nutrient balances showed obvious differences between the digestates analyzed, crops, and also between the two experimental years. Generally, the results demonstrate that nutrients can be recycled by using digestates as fertilizers and thus the use of mineral fertilizers can be reduced. The extensive soil analyses presented in this work show diverse results. Microbial metabolic processes in the soil are increased especially during the first few days after digestate application. More research is needed with respect to effects on macro fauna.

Sommerweizen

Bodenbiologie

Stickstoff

Gärprodukte

Vergärung

Biogas

Energiepflanzen

Düngewirkung

Mineraldüngeräquivalent

Silomais

Bodenatmung

Regenwürmer

Bodenchemie

earthworms

maize

nitrogen

digestates

anaerobic digestion

biogas

energy crops

fertilizing effects

mineral fertilizer equivalent

spring wheat

soil respiration

soil biology

soil chemistry

630 Landwirtschaft, Veterinärmedizin

39 Landwirtschaft, Garten

ZC 17300

ZC 17650

ddc:630

Drought effects on soil carbon dioxide efflux in two ecosystems in Central Sulawesi, Indonesia

van Straaten, Oliver

12 May 2010

No description available.

500 Naturwissenschaften

Forest Sciences and Forest Ecology

Indonesien

Sulawesi

agroforest

Dürre

Theobroma Cacao

Gliricidia sepium

Bodenatmung

Kohlendioxid

Bodenfeuchte

ENSO

Kohlendioxid Produktion

Indonesia

Sulawesi

agroforestry

drought

Theobroma cacao

Gliricidia sepium

soil respiration

carbon dioxide

soil moisture

ENSO

carbon dioxide production

autotrophic respiration

heterotrophic respiration

litter respiration

48.32

YPA 000: Forstliche Bodenkunde

YYZ 300: Asien {Forstwesen regional}

Soil Chemical and Microbial Properties in a Mixed Stand of Spruce and Birch in the Ore Mountains (Germany) - A Case Study

Schua, Karoline, Wende, Stefan, Wagner, Sven, Feger, Karl-Heinz

27 July 2015

A major argument for incorporating deciduous tree species in coniferous forest stands is their role in the amelioration and stabilisation of biogeochemical cycles. Current forest management strategies in central Europe aim to increase the area of mixed stands. In order to formulate statements about the ecological effects of mixtures, studies at the stand level are necessary. In a mixed stand of Norway spruce (Picea abies (L.) Karst.) and silver birch (Betula pendula Roth) in the Ore Mountains (Saxony, Germany), the effects of these two tree species on chemical and microbial parameters in the topsoil were studied at one site in the form of a case study. Samples were taken from the O layer and A horizon in areas of the stand influenced by either birch, spruce or a mixture of birch and spruce. The microbial biomass, basal respiration, metabolic quotient, pH-value and the C and N contents and stocks were analysed in the horizons Of, Oh and A. Significantly higher contents of microbial N were observed in the Of and Oh horizons in the birch and in the spruce-birch strata than in the stratum containing only spruce. The same was found with respect to pH-values in the Of horizon and basal respiration in the Oh horizon. Compared to the spruce stratum, in the birch and spruce-birch strata, significantly lower values were found for the contents of organic C and total N in the A horizon. The findings of the case study indicated that single birch trees have significant effects on the chemical and microbial topsoil properties in spruce-dominated stands. Therefore, the admixture of birch in spruce stands may distinctly affect nutrient cycling and may also be relevant for soil carbon sequestration. Further studies of these functional aspects are recommended.

info:eu-repo/classification/ddc/630

ddc:630

info:eu-repo/classification/ddc/640

ddc:640

info:eu-repo/classification/ddc/690

ddc:690