Abstract
Controlled release phosphorus (P) fertilizers and humic acid (HA) applications are two effective and significant techniques or measures for preventing P loss and enhancing maize development. However, the underlying physiological mechanism of how the controlled release P fertilizers combined with HA affect the maize production and P-use efficiency (PUE) remains unknown. The effects of applying coated diammonium phosphate (CDAP) and HA together on soil nutrient supply intensity, soil phosphatase activity, photosynthesis, endogenous hormone contents, and yield of maize, as well as PUE, were examined in this study. In a pot experiment, two types of P fertilizers—CDAP and diammonium phosphate (DAP)– as well as two HA application rates (0 and 45 kg ha–1) and two P levels (60 and 75 kg P2O5 ha–1) were utilized. Results showed that the key elements that influence the growth and yield of the maize were the availability of P content in soil, plant photosynthesis, and hormone levels. The combination of CDAP and HA had a greater impact on yield and PUE over the course of 2 years than either DAP alone or DAP combined with HA. Besides, using CDAP in combination with HA increased the yield and PUE by 4.2 and 8.4%, respectively, as compared to the application of CDAP alone at 75 kg P2O5 ha–1. From the twelve-leaf to milk stages, the available P content in the soil was increased by an average of 38.6% with the combination of CDAP and HA compared to the application of CDAP alone at 75 kg P2O5 ha–1. In addition, the application of CDAP combined with HA boosted the activities of ATP synthase, as well as the content of cytokinin (CTK), and hence improved the maize photosynthetic rate (Pn). When compared to the application of CDAP alone or DAP combined with HA, the Pn of CDAP + HA treatments was enhanced by 17.9–35.1% at the same P rate. In conclusion, as an environmentally friendly fertilizer, the combined application of CDAP and HA improved the intensity of the soil nutrient supply, regulated photosynthetic capabilities, and increased the yield and PUE, which is important for agricultural production, P resource conservation, and environmental protection.
Highlights
Phosphorus (P), as a structural element, is one of the essential macronutrients for plant growth and development (Johnston and Poulton, 2019; Ding et al, 2021)
This study was aimed to: (1) investigate the effects of coated diammonium phosphate (DAP) (CDAP) combined with humic acid (HA) on soil P availability, (2) understand the roles of photosynthesis and endogenous hormones in the increase of maize production when CDAP and HA are applied together, and (3) determine the factors that influence crop yield and P-use efficiency (PUE)
With the exception of the control treatment, data were collected and divided into four categories: (1) uncoated DAP treatments (Un-P; the mean value of P 100% and P 80% treatments); (2) coated DAP treatments (CP; the mean value of CP 100% and CP 80% treatments); (3) uncoated DAP combined with HA treatments (P + HA; the mean value of P 100% + HA and P 80% + HA treatments); (4) coated DAP combined with HA treatments (CP + HA; the mean value of CP 100 % + HA and CP 80% +HA treatments)
Summary
Phosphorus (P), as a structural element, is one of the essential macronutrients for plant growth and development (Johnston and Poulton, 2019; Ding et al, 2021). The P deficiency limits virtually all major metabolic processes, in plants, such as photosynthesis and respiration (Plaxton and Tran, 2011). Precipitation (usually by interaction with Ca2+ and Mg2+ in calcareous soils, and Fe3+ and Al3+ in acidic soils), and microbial immobilization, the P-use efficiency (PUE) of most crops is only 10–15% (Castro and Torrent, 1998; Roberts and Johnston, 2015; Zhu et al, 2018). The applied P accumulates in soils and causes soil degradation and environmental concerns, such as water eutrophication (Leslie et al, 2017). Effective P management is of importance for PUE improvement, resource reservation, and environmental protection
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