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Correction to Sustainability 2023, 15(13), 10684.
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Correction

Correction: Mauerer et al. Replacing Mineral Fertilizer with Nitrified Human Urine in Hydroponic Lettuce (Lactuca sativa L.) Production. Sustainability 2023, 15, 10684

by
Mareike Mauerer
1,*,
Thorsten Rocksch
1,
Dennis Dannehl
1,
Ingo Schuch
1,
Inga Mewis
2,
Nadja Förster
2,
Christian Ulrichs
2 and
Uwe Schmidt
1
1
Division Biosystems Engineering, Albrecht Daniel Thaer-Institute of Agricultural and Horticultural Sciences, Humboldt-Universität zu Berlin, Albrecht-Thaer-Weg 3, 14195 Berlin, Germany
2
Division Urban Plant Ecophysiology, Albrecht Daniel Thaer-Institute of Agricultural and Horticultural Sciences, Humboldt-Universität zu Berlin, Lentzeallee 55/57, 14195 Berlin, Germany
*
Author to whom correspondence should be addressed.
Sustainability 2025, 17(1), 60; https://doi.org/10.3390/su17010060
Submission received: 13 November 2024 / Accepted: 15 November 2024 / Published: 26 December 2024
Versions Notes
The authors would like to make the following corrections to the published paper [1]. The changes are as follows:
  • Replacing the following sentence in the Abstract:
The calculated carbon footprint from the total fertilizer production was reduced by 34.25%, caused by the nitrified urine treatment.
  • With the following:
The calculated carbon footprint from the total fertilizer production was reduced by 20.52%, caused by the nitrified urine treatment.
2.
Replacing the first paragraph of Section 2.4:
Fertilizer savings were calculated for each fertilizer salt, comparing the mean amounts used in both treatments given in Table 2. This was done for each nutrient contained in the N, P, and K fertilizers and for each fertilizer salt. Assuming a production of 830,000 heads per hectare [36] in [37], savings were expressed as kg ha−1. From these results, the saving potential of CO2 equivalent [kg CO2-eq ha−1] was calculated according to the results of Brentrup et al. [38] for CaNO3 (0.64 kg CO2-eq kg CaNO3) and KAS (0.95 kg CO2-eq kg KAS), and Umweltbundesamt [39] for KH2PO4 (1.26 kg CO2-eq kg KH2PO4) and KNO3 (1.2 kg CO2-eq kg KNO3).
  • With the following:
Amounts of all N, P, K fertilizers were transformed to kilograms per hectare [kg ha−1] assuming a production of 830,000 heads per hectare [36] in [37]. The carbon footprint (CF) of fertilizer production in CO2 equivalent [kg CO2-eq ha−1] was then calculated according to the results of Brentrup et al. [38] for CaNO3 (0.64 kg CO2-eq kg CaNO3−1) and KAS (0.95 kg CO2-eq kg KAS−1), and Umweltbundesamt [39] for KH2PO4 (1.26 kg CO2-eq kg KH2PO4−1) and KNO3 (1.2 kg CO2-eq kg KNO3−1).
3.
Adding this sentence at the end of the second paragraph of Section 2.4:
The sum of carbon footprints for both treatments was calculated and expressed in kg CO2-eq ha−1 and a saving in percent was calculated for the Aurin + mf treatment.
4.
Replacing the first paragraph of Section 3.2:
The calculated CFs for the difference in amounts of mineral fertilizers used in the two treatments are shown in Table 4. The CF for the Aurin + mf treatment was 8003.1 kg CO2-eq ha−1 compared to 12,763.85 kg CO2-eq ha−1 for the control treatment, with a resulting difference of 4371 kg CO2-eq ha−1 or 34.25%.
  • With the following:
The calculated CFs for the amounts of mineral fertilizers used in the two treatments are shown in Table 4. The CF for the Aurin + mf treatment was 16,933.13 kg CO2-eq ha−1 compared to 21,305.05 kg CO2-eq ha−1 for the control treatment, with a resulting difference of 4371.91 kg CO2-eq ha−1 or 20.52%.
5.
Replacing Table 4:
Table 4. Calculated carbon footprints (CFs) for fertilizer salts of the two experimental treatments.
Table 4. Calculated carbon footprints (CFs) for fertilizer salts of the two experimental treatments.
UnitControlAurin + mf
Mineral fertilizer extra 1-KAS, KH2PO4, KNO3CaNO3
Mineral fertilizer difference 2[kg ha−1]3133.72, 171.78, 889.27607.63
CF mineral fertilizers[CO2-eq ha−1]4260.60388.88
N from Aurin® fertilizer[kg ha−1]-869.90
CF urine fertilizer[CO2-eq ha−1]-8003.1
CF wastewater treatment[CO2-eq ha−1]8503.24-
CF Total[CO2-eq ha−1]12,763.858391.94
1 Amounts used of fertilizers indicated have positive differences to the other treatment, 2 Differences shown are in comparison to the second treatment.
  • With the following table:
Table 4. Calculated carbon footprints (CFs) for fertilizer salts of the two experimental treatments.
Table 4. Calculated carbon footprints (CFs) for fertilizer salts of the two experimental treatments.
UnitControlAurin + mf
Mineral fertilizers used-CaNO3, KAS, KH2PO4, KNO3CaNO3, KH2PO4, KNO3
Mineral fertilizer amounts[kg ha−1]2115.49, 3133.72, 2152.88, 4798.522723.11, 1981.11, 3909.24
CF mineral fertilizers[CO2-eq ha−1]12,801.808930.08
N from Aurin® fertilizer[kg ha−1]-869.90
CF urine fertilizer[CO2-eq ha−1]-8003.1
CF wastewater treatment[CO2-eq ha−1]8503.24-
CF Total[CO2-eq ha−1]21,305.0516,933.13
6.
Replacing the first sentence of the second paragraph of Section 4.2:
With the calculated CFs for both treatments, a total saving of 34.25% (12,763.85 CO2-eq ha−1 vs. 8391.94 CO2-eq ha−1) of greenhouse gas emissions was possible due to the Aurin + mf treatment.
  • With the following:
With the calculated CFs for both treatments, a total saving of 20.52 % (21,305.05 kg CO2-eq ha−1 vs. 16,933.13 kg CO2-eq ha−1) of greenhouse gas emissions was possible due to the Aurin + mf treatment.
7.
Replacing the first sentence of Section 5:
The proposed fertigation strategy for lettuce (Lactuca sativa var. capitata) with the nitrified urine fertilizer Aurin resulted in the reduced consumption of mineral fertilizers relative to the control (48% of N, 15% of K, and 13% of P) with comparable nutrient use efficiencies between treatments, and thus in a saving of greenhouse gas emissions (34.25%).
  • With the following:
The proposed fertigation strategy for lettuce (Lactuca sativa var. capitata) with the nitrified urine fertilizer Aurin resulted in the reduced consumption of mineral fertilizers relative to the control (48% of N, 15% of K, and 13% of P) with comparable nutrient use efficiencies between treatments, and thus in a saving of greenhouse gas emissions (20.52%).
The authors state that the scientific conclusions are unaffected. This correction was approved by the Academic Editor. The original publication has also been updated.

Reference

  1. Mauerer, M.; Rocksch, T.; Dannehl, D.; Schuch, I.; Mewis, I.; Förster, N.; Ulrichs, C.; Schmidt, U. Replacing Mineral Fertilizer with Nitrified Human Urine in Hydroponic Lettuce (Lactuca sativa L.) Production. Sustainability 2023, 15, 10684. [Google Scholar] [CrossRef]
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Share and Cite

MDPI and ACS Style

Mauerer, M.; Rocksch, T.; Dannehl, D.; Schuch, I.; Mewis, I.; Förster, N.; Ulrichs, C.; Schmidt, U. Correction: Mauerer et al. Replacing Mineral Fertilizer with Nitrified Human Urine in Hydroponic Lettuce (Lactuca sativa L.) Production. Sustainability 2023, 15, 10684. Sustainability 2025, 17, 60. https://doi.org/10.3390/su17010060

AMA Style

Mauerer M, Rocksch T, Dannehl D, Schuch I, Mewis I, Förster N, Ulrichs C, Schmidt U. Correction: Mauerer et al. Replacing Mineral Fertilizer with Nitrified Human Urine in Hydroponic Lettuce (Lactuca sativa L.) Production. Sustainability 2023, 15, 10684. Sustainability. 2025; 17(1):60. https://doi.org/10.3390/su17010060

Chicago/Turabian Style

Mauerer, Mareike, Thorsten Rocksch, Dennis Dannehl, Ingo Schuch, Inga Mewis, Nadja Förster, Christian Ulrichs, and Uwe Schmidt. 2025. "Correction: Mauerer et al. Replacing Mineral Fertilizer with Nitrified Human Urine in Hydroponic Lettuce (Lactuca sativa L.) Production. Sustainability 2023, 15, 10684" Sustainability 17, no. 1: 60. https://doi.org/10.3390/su17010060

APA Style

Mauerer, M., Rocksch, T., Dannehl, D., Schuch, I., Mewis, I., Förster, N., Ulrichs, C., & Schmidt, U. (2025). Correction: Mauerer et al. Replacing Mineral Fertilizer with Nitrified Human Urine in Hydroponic Lettuce (Lactuca sativa L.) Production. Sustainability 2023, 15, 10684. Sustainability, 17(1), 60. https://doi.org/10.3390/su17010060

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