Critical sulfur dilution curve and sulfur nutrition index in maize

CARCIOCHI, WALTER D.; WYNGAARD, NICOLÁS; REUSSI CALVO, NAHUEL I.; PAGANI, AGUSTÍN; DIVITO, GUILLERMO A.; ECHEVERRÍA, HERNÁN E.; CIAMPITTI, IGNACIO A.

AGRONOMY JOURNAL

AMER SOC AGRONOMY

Año: 2019 vol. 111 p. 448 - 456

0002-1962

Sulfur (S) deficiency can severely limit maize (Zea mays L.) yield. This deficiency could be predicted by quantifying the S concentration (S C ) in the shoot biomass (BM) and by calculating the S nutrition index (SNI = observed S C /critical S C ). However, as shoot S C determination is laborious, alternative S diagnostic methods should be developed in maize. Thus, the objectives of our study were to: (i) determine and validate a critical S dilution curve, (ii) quantify the critical SNI, and (iii) explore the use of S C and chlorophyll meter reading (CMR), both determined in the uppermost developed leaf at vegetative growth stages, to predict SNI and for diagnosing S status in maize. Six field studies evaluating fertilizer S rates were executed, collecting maize shoot and uppermost developed leaf samples and determining Sc, CMR, yield, and SNI parameters. The main outcomes from our study were: (i) a maize critical S dilution curve was fitted (S C = 2.13BM −0.23 ) and validated with an independent data-set; (ii) a critical SNI threshold of 0.79 adequately diagnosed S status at ~V 6 stage; (iii) at V 6 , SNI was linearly related to S C (R 2 = 0.65) and CMR (R 2 = 0.85). As a result, a threshold value of 2.0 g S kg ?1 for S C, 47.5 units for CMR, and 0.94 units for relative CMR can be used to successfully diagnose S deficiencies at early vegetative (~V 6 ) maize stages. Future studies testing S diagnostic tools for maize should be performed in environments with severe S deficiency and nutrient co-limitations.