Assessing solid waste compost application as a practical approach for salt-affected soil reclamation, ABDELBASSET LAKHDAR, CHOKRI HAFSI, AHMED DEBEZ, FRANCESCO MONTEMURRO, NACEUR JEDIDI, & CHEDLY ABDELLY. Acta Agriculturae Scandinavica Section B - Soil and Plant Science, 2011; 61: 284–288.
Since publication, it has been brought to our attention that an error occurred in of the above article. The figure thus appears in its correct form below:
Figure 2. Shoot and root dry matter production of Hordeum maritimum plant subjected to the interactive effect of MSW compost and salt. C: control treatment without salt or compost. S: control irrigated with tap water added with 4 gl_1 NaCl. Co: soil amended with 40 t ha_1 of compost and irrigated with tap water. S + Co: soil amended with 40 t ha_1 of compost and irrigated with tap water at 4 g l_1 NaCl. Values are the means of 7 replicates. Means followed by the same letters are not significantly different according to the Duncan's Multiple Range Test at p >0.05.
![Figure 2. Shoot and root dry matter production of Hordeum maritimum plant subjected to the interactive effect of MSW compost and salt. C: control treatment without salt or compost. S: control irrigated with tap water added with 4 gl_1 NaCl. Co: soil amended with 40 t ha_1 of compost and irrigated with tap water. S + Co: soil amended with 40 t ha_1 of compost and irrigated with tap water at 4 g l_1 NaCl. Values are the means of 7 replicates. Means followed by the same letters are not significantly different according to the Duncan's Multiple Range Test at p >0.05.](/cms/asset/35689587-3946-4a61-9bf2-46086cc08729/sagb_a_580594_o_f0001g.gif)
Taylor & Francis apologise for any confusion caused, and welcome the opportunity to correct the scientific record.
Taylor & Francis
April 2011