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Soil Aggregation and Fungal and Bacterial Biomass under Annual and Perennial Cropping Systems

Chantigny, Martin H. ; Angers, Denis A. ; Prévost, Danielle ; [weitere]

Wiley ; 1997

In: Soil Science Society of America Journal Vol. 61, No. 1 ( 1997-01), p. 262-267

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In: Soil Science Society of America Journal, Wiley, Vol. 61, No. 1 ( 1997-01), p. 262-267

Kurzfassung: Understanding the mechanisms controlling crop effects on soil aggregation is necessary to develop sustainable soil management practices. Changes in soil aggregation, carbohydrates, and fungal vs. bacterial biomass were monitored following a shift from fallow (bare soil) to various cropping systems. Faba bean ( Vicia faba L.) and wheat ( Triticum aestivum L.) were used as annual cropping systems, while alfalfa ( Medicago sativa L.), timothy ( Phleum pratense L.), bromegrass ( Bromus inermis L.), and reed canarygrass ( Phalaris arundinacea L.) were used as perennial cropping systems. Crops were established in spring 1989, on a silty clay loam (fine, mixed, frigid Typic Dystro‐chrept) and a clay loam (fine‐loamy, mixed, frigid Typic Humaquept) near Québec City (Canada). After three growing seasons, the mean‐weight diameter of water‐stable aggregates (MWD) was higher under reed canarygrass (2.26 mm in the clay loam and 2.45 mm in the silty clay loam) and timothy (2.13 and 2.26 mm) than under faba bean (1.92 and 1.89 mm) or wheat (2.06 and 1.57 mm). Intermediate values were found under alfalfa and bromegrass. Changes in MWD were not correlated with microbial biomass C. Acid‐hydrolyzable carbohydrates correlated with MWD in the silty clay loam ( r 2 = 0.42**) but the relationship decreased with higher carbohydrate levels in the clay loam ( r 2 = 0.05). Close correlations were found between MWD and both fungal glucosamine ( r 2 = 0.68***, soils combined) and bacterial muramic acid ( r 2 = 0.48***). Changes in MWD were mostly reflected in aggregates 〉 2 mm, and the close relationship with fungal glucosamine suggests that fungi played a dominant role in soil macroaggregation. Measurement of muramic acid and glucosamine is proposed as a potential approach to compare bacterial vs. fungal contributions to soil aggregation.

Materialart: Online-Ressource

ISSN: 0361-5995 , 1435-0661

URL: Article

DOI: 10.2136/sssaj1997.03615995006100010037x

RVK:

RA 4845

Sprache: Englisch

Verlag: Wiley

Publikationsdatum: 1997

ZDB Id: 241415-6

ZDB Id: 2239747-4

ZDB Id: 196788-5

ZDB Id: 1481691-X

SSG: 13

SSG: 21

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Aggregation and Organic Matter Decomposition in Soils Amended with De‐Inking Paper Sludge

Chantigny, Martin H. ; Angers, Denis A. ; Beauchamp, Chantal J.

Wiley ; 1999

In: Soil Science Society of America Journal Vol. 63, No. 5 ( 1999-09), p. 1214-1221

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In: Soil Science Society of America Journal, Wiley, Vol. 63, No. 5 ( 1999-09), p. 1214-1221

Kurzfassung: De‐inking paper sludge (DPS) has been traditionally disposed of by burning or landfilling, but could be used as an organic amendment in agricultural soils. Our objective was to assess the impact of DPS incorporation on organic matter and aggregation of a clay loam (Typic Dystrochrept) and a silty clay loam (Typic Humaquept). Whole soil C, particulate ( 〉 53 μm) and light fraction (density 〈 1.8 Mg m −3 ) C, and water‐stable aggregation were measured periodically during a 3‐yr period after a single application of DPS at rates of 0 (control), 50, and 100 Mg ha −1 Microscopic observations of water‐stable aggregates were also performed. Adding DPS increased whole soil C content, which remained greater than in the control for the duration of the study. After 2 yr, about 40% of the initial material remained in the soil. The proportion of residual C attributed to DPS and present in the particulate fraction remained constant at 70 to 90% during the first 2 yr of the study, whereas the proportion of residual C present in the light fraction decreased from 〉 95% for fresh DPS to 〈 50% after 2 yr. One year after incorporation of DPS, the proportion of water‐stable aggregates 〉 1 mm was 2 to 6 times larger in amended soils than in the control. This effect was still statistically significant after 3 yr. Microscopic observations revealed that DPS formed into clusters of wood fibers which became encrusted with mineral particles. We hypothesized that this encrustation provided physical protection to the decaying DPS which remained particulate ( 〉 53 μm) in size and progressively densified to 〉 1.8 Mg m −3 As a result, water‐stable macroaggregates were formed with DPS as a central core.

Materialart: Online-Ressource

ISSN: 0361-5995 , 1435-0661

URL: Article

DOI: 10.2136/sssaj1999.6351214x

RVK:

RA 4845

Sprache: Englisch

Verlag: Wiley

Publikationsdatum: 1999

ZDB Id: 241415-6

ZDB Id: 2239747-4

ZDB Id: 196788-5

ZDB Id: 1481691-X

SSG: 13

SSG: 21

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Nitrous oxide production in soils cropped to corn with varying N fertilization

Chantigny, Martin H. ; Prévost, Danielle ; Angers, Denis A. ; [weitere]

Canadian Science Publishing ; 1998

In: Canadian Journal of Soil Science Vol. 78, No. 4 ( 1998-11-01), p. 589-596

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In: Canadian Journal of Soil Science, Canadian Science Publishing, Vol. 78, No. 4 ( 1998-11-01), p. 589-596

Kurzfassung: Mineral N fertilizers may contribute to N gas emissions to the atmosphere. Soil cores were collected in 1993 and 1994, in a sandy loam and a sandy clay cropped with an early-maturing corn (Zea mays L.) hybrid and fertilized with ammonium nitrate at rates of 10, 60, 120 or 180 kg N ha −1 . Denitrification and N 1 O production rates, air-filled porosity (AFP), water-soluble mineral N (WSMN) and water-soluble organic C (WSOC) were measured. Denitrification and N 2 O production rates were generally small, but values 〉 2 µg N 2 O-N kg −1 h −1 were measured (i) when WSMN contents exceeded 5 mg kg −1 , and (ii) when AFP was 〈 50 to 55% in the sandy loam, and 〈 40 to 45% in the sandy clay. For most sampling dates, N 2 O production and denitrification rates increased with N fertilizer level. In 1993, AFP was relatively high and variable in soil cores, and regression analyses revealed that denitrification rates were closely related to AFP. In 1994, AFP was relatively low in soil cores, and regression analyses showed that denitrification and N 2 O production rates were positively related to WSMN and negatively to WSOC. It is suggested that provided AFP was low, N fertilization may have had either a direct effect on denitrification and N 2 O production rates by determining WSMN availability to microorganisms, or an indirect effect by affecting WSOC metabolism in soil. Depending on the year and soil type, mean denitrification rates were 40 to 130% greater in the soil with 180 than with 120 kg N ha −1 . Corresponding N 2 O production rates were 50 to 200% higher in the 180 than in the 120 kg N ha −1 treatment. It appears that limiting N fertilizer to 120 kg ha −1 , under early-maturing corn production, may prevent excessive gaseous N losses due to denitrification. Key words: Denitrification, nitrous oxide, N fertilizers, available N, grain corn

Materialart: Online-Ressource

ISSN: 0008-4271 , 1918-1841

URL: Article

DOI: 10.4141/S98-009

Sprache: Englisch

Verlag: Canadian Science Publishing

Publikationsdatum: 1998

ZDB Id: 2017003-8

ZDB Id: 417254-1

SSG: 13

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