Effect of Planting Geometry on Growth, Water Productivity, and Fruit Quality of Tomatoes under Different Soil Moisture Regimes

Author:

Ali Talpur Mir Moazzam1,Shaghaleh Hiba2ORCID,Ali Adam Hamad Amar2,Chang Tingting1ORCID,Zia-ur-Rehman Muhammad3,Usman Muhammad2,Alhaj Hamoud Yousef4ORCID

Affiliation:

1. College of Agricultural Science and Engineering, Hohai University, Nanjing 210098, China

2. College of Environment, Hohai University, Nanjing 210098, China

3. Institute of Soil and Environmental Sciences, University of Agriculture, Faisalabad 38000, Pakistan

4. College of Hydrology and Water Resources, Hohai University, Nanjing 210098, China

Abstract

The present study investigated the impact of planting spacing on tomato crop growth, water productivity, and fruit quality under different water regimes. Thus, a field experiment was conducted using a randomized complete block design in a factorial arrangement of treatments. The tomato plants were grown at three planting spacing patterns: 30 cm row-to-row planting spacing, 60 cm row-to-row planting spacing, and 90 cm row-to-row planting spacing, which were marked as (G1), (G2), and (G3), respectively. For each planting spacing pattern, irrigation regimes, namely (I1), (I2), and (I3), were established by setting the soil moisture content to 50%, 100%, and 150% of the reference evapotranspiration. The I3 × G2 combination resulted in the maximum values of plant height (68.2 cm), stem diameter (12.1 mm), and yield (41,269.9 kg/hm2), providing the highest contents of protein (1.93 mg/kg), fat (0.81%), fiber (3.94%), and lycopene (4.00 mg/kg) of the fresh fruit. Conversely, the I1 × G1 led to the minimum values of plant height (37.3 cm), stem diameter (5.65 mm), and yield (7814.7 kg/hm2), providing the lowest contents of protein (1.15 mg/kg), fat (0.50%), fiber (2.39%), and lycopene (2.15 mg/kg) of the fresh fruit. The I1 × G1 had the highest water productivity (25.06 kg/m3) value, while the lowest WP (10.23 kg/m3) value was achieved by I3 × G3. While the I1 × G3 treatment minimized the uniformity coefficient and distribution uniformity, the I3 × G3 treatment maximized their values, indicating more uniform water distribution. Our findings indicate that the I3 × G2 combination can increase tomato productivity, growth, and fruit quality. However, the I1 × G1 performed better in terms of water productivity. The results of this study can positively contribute to improving tomato production systems’ sustainability, productivity, and quality under the increasing problem of climate change.

Funder

China Postdoctoral Science Foundation

Jiangsu Funding Program for Excellent Postdoctoral Talent

Hohai University Scientific Research Project

National Natural Science Foundation of China

Fundamental Research Funds for the Central Universities of China

Publisher

MDPI AG

Subject

Management, Monitoring, Policy and Law,Renewable Energy, Sustainability and the Environment,Geography, Planning and Development,Building and Construction

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