Long-term net N mineralization potential as an indicator for soil fertility: Chances and constraints

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Autoren

  • Sabine Heumann
  • Horst Ringe
  • Jürgen Böttcher

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OriginalspracheEnglisch
Seiten (von - bis)S107-S111
FachzeitschriftArchives of Agronomy and Soil Science
Jahrgang58
AusgabenummerSUPPL.
PublikationsstatusVeröffentlicht - Okt. 2012

Abstract

The soil capacity to supply nitrogen (N) to crops through decomposition of soil organic matter (SOM) is a main indicator for soil fertility. Assessment of a soil net N mineralization potential via long-term laboratory incubations accounts for many of the influencing factors as it integrates the activity of soil micro-organisms and to some extent, the physical accessibility of SOM. A two-pool first-order kinetic equation was used to fit cumulative net N mineralization data from incubations. It allowed the identification of a fast mineralizable N pool, N fast (N in fresh residues), and a slow mineralizable N pool, N slow, which mainly consists of humified SOM. Since the latter represents long-term soil N supply and is a mostly inherent soil property, it could be used as an indicator for soil fertility. We will present results from different studies: • A watershed study (NW-Germany), where reliable pedotransfer functions for site-specific estimates of pool size N slow were derived. • A study in the Kalahari region, where the approach helped to understand the relevance of the soil net N mineralization potential for groundwater pollution with nitrate. • A study aiming to develop an internet-service for field-specific simulations of current net N mineralization (NW-Germany).

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Long-term net N mineralization potential as an indicator for soil fertility: Chances and constraints. / Heumann, Sabine; Ringe, Horst; Böttcher, Jürgen.
in: Archives of Agronomy and Soil Science, Jahrgang 58, Nr. SUPPL., 10.2012, S. S107-S111.

Publikation: Beitrag in FachzeitschriftArtikelForschungPeer-Review

Heumann S, Ringe H, Böttcher J. Long-term net N mineralization potential as an indicator for soil fertility: Chances and constraints. Archives of Agronomy and Soil Science. 2012 Okt;58(SUPPL.):S107-S111. doi: 10.1080/03650340.2012.695862
Heumann, Sabine ; Ringe, Horst ; Böttcher, Jürgen. / Long-term net N mineralization potential as an indicator for soil fertility : Chances and constraints. in: Archives of Agronomy and Soil Science. 2012 ; Jahrgang 58, Nr. SUPPL. S. S107-S111.
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abstract = "The soil capacity to supply nitrogen (N) to crops through decomposition of soil organic matter (SOM) is a main indicator for soil fertility. Assessment of a soil net N mineralization potential via long-term laboratory incubations accounts for many of the influencing factors as it integrates the activity of soil micro-organisms and to some extent, the physical accessibility of SOM. A two-pool first-order kinetic equation was used to fit cumulative net N mineralization data from incubations. It allowed the identification of a fast mineralizable N pool, N fast (N in fresh residues), and a slow mineralizable N pool, N slow, which mainly consists of humified SOM. Since the latter represents long-term soil N supply and is a mostly inherent soil property, it could be used as an indicator for soil fertility. We will present results from different studies: • A watershed study (NW-Germany), where reliable pedotransfer functions for site-specific estimates of pool size N slow were derived. • A study in the Kalahari region, where the approach helped to understand the relevance of the soil net N mineralization potential for groundwater pollution with nitrate. • A study aiming to develop an internet-service for field-specific simulations of current net N mineralization (NW-Germany).",
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N2 - The soil capacity to supply nitrogen (N) to crops through decomposition of soil organic matter (SOM) is a main indicator for soil fertility. Assessment of a soil net N mineralization potential via long-term laboratory incubations accounts for many of the influencing factors as it integrates the activity of soil micro-organisms and to some extent, the physical accessibility of SOM. A two-pool first-order kinetic equation was used to fit cumulative net N mineralization data from incubations. It allowed the identification of a fast mineralizable N pool, N fast (N in fresh residues), and a slow mineralizable N pool, N slow, which mainly consists of humified SOM. Since the latter represents long-term soil N supply and is a mostly inherent soil property, it could be used as an indicator for soil fertility. We will present results from different studies: • A watershed study (NW-Germany), where reliable pedotransfer functions for site-specific estimates of pool size N slow were derived. • A study in the Kalahari region, where the approach helped to understand the relevance of the soil net N mineralization potential for groundwater pollution with nitrate. • A study aiming to develop an internet-service for field-specific simulations of current net N mineralization (NW-Germany).

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