Assessment of Allelopathic water stress of Parthenium on weed density and initial growth of maize hybrid (FS-151) using sigmoid growth model

JOURNAL OF WEED SCIENCE RESEARCH Pub Date : 2022-03-31 DOI:10.28941/pjwsr.v28i1.1004
M. Haroon, Atif Shaheen, F. Wahid, Mukhtar Alam, A. Basir, R. Ullah, M. Saeed, Muhammad Tariq Majeed
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Abstract

Parthenium is an invasive weed and has adverse effect on agriculture, biodiversity and human health in our ecosystem. This experiment was carried out to find the allelopathic water stress of parthenium effect on maize growth dynamics using 3 sigmoidal growth model. Soil was collected from weed infested field. Allelopathic water stress (AWS) greatly reduced weed density as compared to control. Allelopathic water stress of parthenium at higher concentration (PWS-100%) reduced maize germination and affect chlorophyll content, leaf area, plant height, shoot biomass, root biomass. As at lower concentration (AWS-25% and 50%) enhance maize growth parameters. This study revealed that allelopathic water stress of parthenium at lower concentration increase maize growth and decrease a weed density up to minimum level.
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利用s型生长模型评价Parthenium化感水分胁迫对玉米杂交种FS-151杂草密度和初始生长的影响
Parthenium是一种入侵杂草,对农业、生物多样性和人类健康都有不利影响。本试验采用3 s型生长模型,研究磷化感水分胁迫对玉米生长动态的影响。从杂草丛生的田地里收集土壤。化感性水分胁迫(AWS)大大降低了杂草密度。高浓度磷(PWS-100%)的化感水分胁迫降低了玉米的发芽率,影响了叶绿素含量、叶面积、株高、茎部生物量和根系生物量。较低浓度(25%和50%)可提高玉米的生长参数。本研究表明,在较低浓度下,parthenium的化感性水分胁迫对玉米生长有一定的促进作用,对杂草密度的影响最小。
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JOURNAL OF WEED SCIENCE RESEARCH
JOURNAL OF WEED SCIENCE RESEARCH
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