A Life Cycle Assessment was performed to compare the environmental impacts generated by Mediterranean maize crops (Southern Italy) under conventional management and C-friendly management aimed to preserve soil organic matter and reduce mineral N fertilizers application. Primary data from three fertilizing practices were processed: urea (CONV, conventional), compost (COM) and green manure (GMAN) distribution. Suitable comparisons among treatments were carried out by adopting the same system boundary (one hectare of cropped land) and functional unit (1kgmaize dry matter). Direct field emissions were calculated and the short term soil carbon storage, experimentally derived for COM and GMAN, was also included. Results indicate that the highest impacts are from chemical fertilizers over the background industrial supply chain. GMAN showed the lower environmental burdens, while soil protection strategy expected for COM appeared not sustainable, due to the low crop yield achieved.

Life Cycle Assessment of maize cropping under different fertilization alternatives / Zucaro, Amalia; Forte, Annachiara; Fagnano, Massimo; Fierro, Angelo. - In: INTERNATIONAL JOURNAL OF PERFORMABILITY ENGINEERING. - ISSN 0973-1318. - 10:4(2014), pp. 427-436.

Life Cycle Assessment of maize cropping under different fertilization alternatives

ZUCARO, AMALIA;FORTE, ANNACHIARA;FAGNANO, MASSIMO;FIERRO, ANGELO
2014

Abstract

A Life Cycle Assessment was performed to compare the environmental impacts generated by Mediterranean maize crops (Southern Italy) under conventional management and C-friendly management aimed to preserve soil organic matter and reduce mineral N fertilizers application. Primary data from three fertilizing practices were processed: urea (CONV, conventional), compost (COM) and green manure (GMAN) distribution. Suitable comparisons among treatments were carried out by adopting the same system boundary (one hectare of cropped land) and functional unit (1kgmaize dry matter). Direct field emissions were calculated and the short term soil carbon storage, experimentally derived for COM and GMAN, was also included. Results indicate that the highest impacts are from chemical fertilizers over the background industrial supply chain. GMAN showed the lower environmental burdens, while soil protection strategy expected for COM appeared not sustainable, due to the low crop yield achieved.
2014
Life Cycle Assessment of maize cropping under different fertilization alternatives / Zucaro, Amalia; Forte, Annachiara; Fagnano, Massimo; Fierro, Angelo. - In: INTERNATIONAL JOURNAL OF PERFORMABILITY ENGINEERING. - ISSN 0973-1318. - 10:4(2014), pp. 427-436.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11588/584845
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