Reliance on Biological Nitrogen Fixation Depletes Soil Phosphorus and Potassium Reserves

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Reliance on Biological Nitrogen Fixation Depletes Soil Phosphorus and Potassium Reserves. / Reimer, Marie; Hartmann, Tobias Edward; Oelofse, Myles; Magid, Jakob; Bünemann, Else K.; Möller, Kurt.

In: Nutrient Cycling in Agroecosystems, Vol. 118, No. 3, 2020, p. 273-291.

Research output: Contribution to journalJournal articleResearchpeer-review

Harvard

Reimer, M, Hartmann, TE, Oelofse, M, Magid, J, Bünemann, EK & Möller, K 2020, 'Reliance on Biological Nitrogen Fixation Depletes Soil Phosphorus and Potassium Reserves', Nutrient Cycling in Agroecosystems, vol. 118, no. 3, pp. 273-291. https://doi.org/10.1007/s10705-020-10101-w

APA

Reimer, M., Hartmann, T. E., Oelofse, M., Magid, J., Bünemann, E. K., & Möller, K. (2020). Reliance on Biological Nitrogen Fixation Depletes Soil Phosphorus and Potassium Reserves. Nutrient Cycling in Agroecosystems, 118(3), 273-291. https://doi.org/10.1007/s10705-020-10101-w

Vancouver

Reimer M, Hartmann TE, Oelofse M, Magid J, Bünemann EK, Möller K. Reliance on Biological Nitrogen Fixation Depletes Soil Phosphorus and Potassium Reserves. Nutrient Cycling in Agroecosystems. 2020;118(3):273-291. https://doi.org/10.1007/s10705-020-10101-w

Author

Reimer, Marie ; Hartmann, Tobias Edward ; Oelofse, Myles ; Magid, Jakob ; Bünemann, Else K. ; Möller, Kurt. / Reliance on Biological Nitrogen Fixation Depletes Soil Phosphorus and Potassium Reserves. In: Nutrient Cycling in Agroecosystems. 2020 ; Vol. 118, No. 3. pp. 273-291.

Bibtex

@article{4c96bad84d7e41178296f13787c8d226,
title = "Reliance on Biological Nitrogen Fixation Depletes Soil Phosphorus and Potassium Reserves",
abstract = "Limited nutrient availability is one of the major challenges in organic farming. Little is known about nutrient budgets of organic farms, the underlying factors or effects on soil fertility. We therefore assessed farm gate nutrient budgets for nitrogen (N), phosphorus (P), potassium (K), magnesium (Mg) and sulfur (S) of 20 organic farms in Germany and analyzed their soil nutri-ent status. In average, the budgets showed a surplus of N (19 kg ha−1), K (5 kg ha−1), S (12 kg ha−1), and Mg (7 kg ha−1), and a deficit of P (−3 kg ha−1). There was, however, high variability between farms (e.g. standard deviation up to ± 36 kg N ha−1), which was mainly explained by different degrees of reliance on biological N fixation (BNF) as N source. When farms obtained more than 60% of their N input through BNF, they had deficits of P (mean −8 kg P ha−1) and K (mean −18 kg K ha−1). Nutrient status of most soils was within the ad-vised corridor, but for P, K and Mg, 10–15% of fields were lower and 45–63% were higher than advised. Extractable soil nutrient contents did not correlate with the nutrient budgets, inputs or outputs. Only extractable soil P increased with increasing P inputs and outputs. Fur-thermore, a decrease in extractable soil P was detected with a prolonged history of organic farming, indicating a risk of soil P mining in organic farming systems. In conclusion, the study revealed nutrient imbalances in organic farming and pointed to P and K scarcity as a major challenge for organic farms with high reliance on BNF in the long term.",
keywords = "Farm gate budgets, Germany, Nutrient inputs, Nutrient management, Organic farming, Soil depletion",
author = "Marie Reimer and Hartmann, {Tobias Edward} and Myles Oelofse and Jakob Magid and B{\"u}nemann, {Else K.} and Kurt M{\"o}ller",
year = "2020",
doi = "10.1007/s10705-020-10101-w",
language = "English",
volume = "118",
pages = "273--291",
journal = "Nutrient Cycling in Agroecosystems",
issn = "1385-1314",
publisher = "Springer",
number = "3",

}

RIS

TY - JOUR

T1 - Reliance on Biological Nitrogen Fixation Depletes Soil Phosphorus and Potassium Reserves

AU - Reimer, Marie

AU - Hartmann, Tobias Edward

AU - Oelofse, Myles

AU - Magid, Jakob

AU - Bünemann, Else K.

AU - Möller, Kurt

PY - 2020

Y1 - 2020

N2 - Limited nutrient availability is one of the major challenges in organic farming. Little is known about nutrient budgets of organic farms, the underlying factors or effects on soil fertility. We therefore assessed farm gate nutrient budgets for nitrogen (N), phosphorus (P), potassium (K), magnesium (Mg) and sulfur (S) of 20 organic farms in Germany and analyzed their soil nutri-ent status. In average, the budgets showed a surplus of N (19 kg ha−1), K (5 kg ha−1), S (12 kg ha−1), and Mg (7 kg ha−1), and a deficit of P (−3 kg ha−1). There was, however, high variability between farms (e.g. standard deviation up to ± 36 kg N ha−1), which was mainly explained by different degrees of reliance on biological N fixation (BNF) as N source. When farms obtained more than 60% of their N input through BNF, they had deficits of P (mean −8 kg P ha−1) and K (mean −18 kg K ha−1). Nutrient status of most soils was within the ad-vised corridor, but for P, K and Mg, 10–15% of fields were lower and 45–63% were higher than advised. Extractable soil nutrient contents did not correlate with the nutrient budgets, inputs or outputs. Only extractable soil P increased with increasing P inputs and outputs. Fur-thermore, a decrease in extractable soil P was detected with a prolonged history of organic farming, indicating a risk of soil P mining in organic farming systems. In conclusion, the study revealed nutrient imbalances in organic farming and pointed to P and K scarcity as a major challenge for organic farms with high reliance on BNF in the long term.

AB - Limited nutrient availability is one of the major challenges in organic farming. Little is known about nutrient budgets of organic farms, the underlying factors or effects on soil fertility. We therefore assessed farm gate nutrient budgets for nitrogen (N), phosphorus (P), potassium (K), magnesium (Mg) and sulfur (S) of 20 organic farms in Germany and analyzed their soil nutri-ent status. In average, the budgets showed a surplus of N (19 kg ha−1), K (5 kg ha−1), S (12 kg ha−1), and Mg (7 kg ha−1), and a deficit of P (−3 kg ha−1). There was, however, high variability between farms (e.g. standard deviation up to ± 36 kg N ha−1), which was mainly explained by different degrees of reliance on biological N fixation (BNF) as N source. When farms obtained more than 60% of their N input through BNF, they had deficits of P (mean −8 kg P ha−1) and K (mean −18 kg K ha−1). Nutrient status of most soils was within the ad-vised corridor, but for P, K and Mg, 10–15% of fields were lower and 45–63% were higher than advised. Extractable soil nutrient contents did not correlate with the nutrient budgets, inputs or outputs. Only extractable soil P increased with increasing P inputs and outputs. Fur-thermore, a decrease in extractable soil P was detected with a prolonged history of organic farming, indicating a risk of soil P mining in organic farming systems. In conclusion, the study revealed nutrient imbalances in organic farming and pointed to P and K scarcity as a major challenge for organic farms with high reliance on BNF in the long term.

KW - Farm gate budgets

KW - Germany

KW - Nutrient inputs

KW - Nutrient management

KW - Organic farming

KW - Soil depletion

U2 - 10.1007/s10705-020-10101-w

DO - 10.1007/s10705-020-10101-w

M3 - Journal article

AN - SCOPUS:85094676239

VL - 118

SP - 273

EP - 291

JO - Nutrient Cycling in Agroecosystems

JF - Nutrient Cycling in Agroecosystems

SN - 1385-1314

IS - 3

ER -

ID: 251737246