Abstract

Wood ash as a soil amendment has gained wide spread acceptance in the recent years as a sustainable alternative to chemical fertilizers, although information regarding the effects of its application on maize growth and yield in the context of climate change and increasing drought severity is lacking till date. In the present study, field and pot trials were carried out at the experimental farm of the University of Padova at Legnaro (NE Italy) in a silty-loam soil in order to investigate the effects of soil amendment with wood ash (0.1% w/w, incorporated into the 0.2-m top soil) on the bioavailability of mineral elements and their uptake by maize. Characteristics analyzed included plant growth, leaf transpiration dynamics, and productivity in two contrasting hybrids, P1921 (drought sensitive) and D24 (drought tolerant). Wood ash contained relevant amounts of Ca, K, Mg, P, and S, and hazardous levels of Zn (732 mg kg−1), Pb (527 mg kg−1), and Cu (129 mg kg−1), although no significant changes in total soil element concentration, pH, and electrical conductivity were detected in open field. Ash application led to a general increasing trend of diethylene triamine penta-acetic acid (DTPA)-extractable of various elements, bringing to higher grain P in D24 hybrid, and Zn and Ni reductions in P1921 hybrid. Here, the results demonstrated that ash amendment enhanced shoot growth and the number of leaves, causing a reduction of harvest index, without affecting grain yield in both hybrids. The most relevant result was a retarded inhibition of leaf transpiration under artificial progressive water stress, particularly in the drought-tolerant D24 hybrid that could be sustained by root growth improvements in the field across the whole 0–1.5 m soil profile in D24, and in the amended top soil in P1921. It is concluded that woody ash can be profitably exploited in maize fertilization for enhancing shoot and root growth and drought tolerance, thanks to morphological and physiological improvements, although major benefits are expected to be achieved in drought tolerant hybrids. Attention should be payed when using ash derived by metal contaminated wood stocks to avoid any health risk in food uses.

Highlights

  • Wood ash is the product of complete combustion of wood materials that can be resourced for plant nutrition and nutrient cycling in agriculture (Bhattacharya and Chattopadhyay, 2002)

  • When applied at appropriate levels, wood ash application has been reported to increase soil fertility by enhancing respiration and other metabolic activities of the soil microbial community (Fritze et al, 1994; Martikainen et al, 1994), and significantly improve growth and yield of some crops, especially maize (Roger and Sharland, 1997; Owolabi et al, 2003; Nottidge et al, 2005; Mbah et al, 2010). While these positive effects observed with wood ash application are due to its liming effect and higher availability of essential nutrients for plant growth promotion, increased water retention (Pathan et al, 2003; Stoof et al, 2010), and improved water infiltration (Yunusa et al, 2006) are some of its positive effects expected on soil hydraulic properties, still little studied

  • Results from the present study showed that wood ash is a rich source of nutrients, and maize plants grown in wood ash amended soil had improved the shoot and root growth, the uptake of important elements, and retarded the inhibition of leaf transpiration under drought conditions

Read more

Summary

Introduction

Wood ash is the product of complete combustion of wood materials that can be resourced for plant nutrition and nutrient cycling in agriculture (Bhattacharya and Chattopadhyay, 2002). When applied at appropriate levels, wood ash application has been reported to increase soil fertility by enhancing respiration and other metabolic activities of the soil microbial community (Fritze et al, 1994; Martikainen et al, 1994), and significantly improve growth and yield of some crops, especially maize (Roger and Sharland, 1997; Owolabi et al, 2003; Nottidge et al, 2005; Mbah et al, 2010). While these positive effects observed with wood ash application are due to its liming effect and higher availability of essential nutrients for plant growth promotion, increased water retention (Pathan et al, 2003; Stoof et al, 2010), and improved water infiltration (Yunusa et al, 2006) are some of its positive effects expected on soil hydraulic properties, still little studied

Objectives
Methods
Results
Discussion
Conclusion

Talk to us

Join us for a 30 min session where you can share your feedback and ask us any queries you have

Schedule a call

Disclaimer: All third-party content on this website/platform is and will remain the property of their respective owners and is provided on "as is" basis without any warranties, express or implied. Use of third-party content does not indicate any affiliation, sponsorship with or endorsement by them. Any references to third-party content is to identify the corresponding services and shall be considered fair use under The CopyrightLaw.