Effect of planting density on growth and yield of irrigated maize (Zea mays) in the Batinah Coast region of Oman

SUMMARYField studies were conducted in 1989 and 1990 to investigate the effect of planting density on growth and yield of maize under irrigation in the Batinah Coast region, an arid zone in the Sultanate of Oman. Two maize cultivars, Eperon and Challenger, were grown at three densities (24000, 48000 and 74000 plants/ha). Grain yield was highest at 48000 plants/ha. Leaf area index (LAI) increased with increase in plant density but was not related to grain yield. Lodging was highly correlated with shelling percentage.

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Effects of Planting Density on Leaf Area and Productivity of Two Maize Cultivars in Nigeria

Experimental Agriculture ◽

10.1017/s0014479700013478 ◽

1982 ◽

Vol 18 (1) ◽

pp. 93-100 ◽

Cited By ~ 8

Author(s):

S. U. Remison ◽

E. O. Lucas

Keyword(s):

Grain Yield ◽

Leaf Area Index ◽

Leaf Area ◽

Dry Matter ◽

Plant Population ◽

Planting Density ◽

Dry Matter Yield ◽

Area Index ◽

Positive Correlation ◽

Maize Cultivars

SUMMARYTwo maize cvs, FARZ 23 and FARZ 25, were grown at three densities (37,000, 53,000 and 80,000 plants/ha) in 1979 and 1980. Leaf area index (LAI) increased with increase in plant population and was at a maximum at mid-silk. Grain yield was highest at 53,000 plants/ha. There was no relation between LAI and grain yield but there was a positive correlation between LAI and total dry matter yield.

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EFFECT OF SPRAYING WITH DIFFERENT CONCENTRATION OF LICORICE EXTRACT AND PLANT DENSITIES IN GROWTH AND YIELD OF SORGHUM BICOLOR L.

IRAQI JOURNAL OF AGRICULTURAL SCIENCES ◽

10.36103/ijas.v50i6.835 ◽

2019 ◽

Vol 50 (6) ◽

Author(s):

Al-Mohmadi & Al-Ani

Keyword(s):

Grain Yield ◽

Plant Density ◽

Foliar Application ◽

Growth And Yield ◽

Control Treatment ◽

Spring Season ◽

Area Index ◽

Fall Season ◽

High Plant Density ◽

Plant Densities

A field experiment was condueted at the experimental Farm, College of Agriculture University of AL-Anbar in replace location (Abu-Gheaib) in spring season of 2017. While in Fall season it was applied at AL-saqluwiya-Anbar Province 10 km west north of Falluga city to study the effect of four levels of licorice extractor (Glycyrrhiza glabra L.) (0,2,4 and 6) g.L-1 water and three (53,333, 66,666 and 88,888 plant) plant.ha-1. On growth and grain yield of Sorghum cv. Rabih. The experiment was applied using R.C.B.D. arranged in split plots with three replications. levels of plant densities were used as main-plot, while licorice extractor were used as sub-plot. Foliar application of licorice extractor was applied during vegetative growth. The results showed that, high plant density (88888) plant.h-1 significantly increase plant height and leaf area index, while most of traits were not significantly influenced by plant density including grain yield. Results revealed that foliar application of licorice extractor with 2,4,6 g.L-1 of water significantly influenced grain yield in spring season compane with control treatment and it is amounted to (9.62, 9.55 and 9.78) t.h-1 respectively. There were significant interaction between Licorice extractor and plant density in spring and fall season in grain yield. The higher grain yield of 10.31 and 10.33 t.h-1 were obtained when sorghum plants were sowing at hight density and sprayed with Licorice extractor at level 4 g.L-1 respectively

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Planting Density and Variety Modulated Root and Leaf Characteristics to Improve Grain Yield of Spring Maize

International Journal of Agriculture and Biology ◽

10.17957/ijab/15.1636 ◽

2021 ◽

Vol 25 (01) ◽

pp. 43-51

Author(s):

Qinglong Yang

Keyword(s):

Grain Yield ◽

Leaf Area ◽

Dry Matter ◽

Plant Density ◽

Soil Layer ◽

Planting Density ◽

Root Number ◽

Area Index ◽

Spring Maize ◽

Maize Varieties

To better understand the accumulation and transport of substances under different planting densities, the adaptation of maize root and leaf in response to increasing planting densities was investigated. In this two-year filed study, three maize varieties, Fumin108 (FM), Xianyu335 (XY) and Dika159 (DK), were sown under three different planting densities: 15,000 (D1), 60,000 (D2) and 90,000 plants ha-1 (D3) during 2018 and 2019. Increase in planting density gradually increased leaf area index along with reduced leaf area and net photosynthetic rate of individual leaves. In the 0–20 cm soil layer, the average root dry matter decreased by 55.88 and 80.92%, and the average root number decreased by 31.18 and 38.71% under D2 and D3, respectively, compared with D1. With increase in planting density, yield and dry matter per plant of maize gradually decreased while yield and dry matter per ha was increased with increase in D1-D2 density and then flattened in D2-D3 density. Compared with D1, two-year average yield per plant was decreased by 34.10 and 51.87% under D2 and D3, respectively. The difference in the number of roots of XY, FM and DK were not significant, so change in variety did not alleviate the decrease in the number of roots. At higher planting densities (above D2), the increase in density did not increase per ha grain yield. In conclusion, the suitable plant density was about 60,000 plants ha-1 to harvest more yield of spring maize while density higher than that reduced leaf area and photosynthesis per plant. Moreover, leaf area, root number and net photosynthesis per plant was higher in lower planting density coupled with overall less yield on ha basis and thus seemed wastage of soil nutrients and light resources. © 2021 Friends Science Publishers

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Effect of Planting Density on the Growth and Yield of Sunflower under Mulched Drip Irrigation

Water ◽

10.3390/w11040752 ◽

2019 ◽

Vol 11 (4) ◽

pp. 752

Author(s):

Li ◽

Qu ◽

Chen ◽

Yang ◽

Huang

Keyword(s):

Drip Irrigation ◽

Plant Density ◽

Saline Water ◽

Soil Layer ◽

Irrigation District ◽

Growth And Yield ◽

Planting Density ◽

Plant Spacing ◽

Area Index ◽

Mulched Drip Irrigation

A field experiment was conducted to test the suitability of growing sunflower undermulched drip irrigation with saline water in the HID (Hetao Irrigation District), North China. Theexperiment included five planting densities in which the plant spacing was 30, 35, 40, 45, and 50 cmwith the same spacing (50 cm) between rows. The results indicated that mulched drip irrigationwith saline water was more water‐saving than traditional ground irrigation using fresh water, whilethe irrigation quota increased with the increase of planting density. Little difference of soilsalinization was found for the treatments in the 50–100 cm soil layer, which indicated that additionalmeasures should be taken for salt balance with saline water irrigation. The height and leaf area index(LAI) of sunflower increased in response to the increase of plant density, and the head dry mattertransferred to the stem at plant densities higher than 47,619 plants/hm2. Though the grain weightand 1000‐seed weight decreased with increasing plant density, the achene yield and biomassproduction increased. This research suggests that a plant spacing of 35 cm with 50 cm of row spacingis more suitable for sunflower mulched drip irrigation with saline water at concentrations of 3.0g∙L−1.

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Determination of Principal Yield Attributing Traits of Hybrid Maize (Zea mays L.) Using Multivariate Analysis

International Journal of Bio-resource and Stress Management ◽

10.23910/1.2021.2366 ◽

2021 ◽

Vol 12 (5) ◽

pp. 594-602

Author(s):

L. Rana ◽

◽

H. Banerjee ◽

D. Mazumdar ◽

S. Sarkar ◽

...

Keyword(s):

Grain Yield ◽

Leaf Area Index ◽

Leaf Area ◽

Field Experiments ◽

Growth And Yield ◽

Planting Density ◽

Direct Effects ◽

Area Index ◽

Positive Direct ◽

Hybrid Maize

The field experiments were conducted at farmer’s field, Madandanga village under Chakdaha Block of Nadia district in West Bengal during rabi season 2014-15 and 2015-16. Treatments were distributed in split-factorial design, with three varieties (P ‘3533’, P ‘3396’, P ‘30V92’) in the main plot and three planting density (55,555, 66,666, 83,333 plants ha-1) × three sowing dates (November 20, November 30, December 10) combinations in the sub-plots, replicated thrice. Irrespective of planting density and sowing date, the variety ‘P30V92’ produced the highest yield, followed by ‘P3396’ and ‘P3533’. The significantly highest grain and stover yield was obtained in high density planting (83,333 plants ha-1), accounting 44.2 and 39.6% more than low planting density (55,555 plants ha-1), respectively. The maximum grain and stover yields were obtained from Nov. 20 sown plants; being 7.71 and 11.95% more than the grain yield derived from late sown (Dec. 10) plants. A correlation study showed that among the growth and yield components, leaf area index (0.96) and shelling percentage (0.91) exhibited highly positive direct effects on the grain yield of hybrid maize. However, other growth attributes, namely P uptake (0.88), K uptake (0.86) and plant height (0.81) exerted comparatively low positive direct effects on the grain yield of hybrid maize. Further, the standard regression equation revealed a significant relationship of shelling percentage (p≤0.01), leaf area index (p≤0.01) and uptake of P (p≤0.05) with grain yield.

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Response of Maize Crop to Spatial Arrangement and Staggered Interseeding of Haricot Bean

International Journal of Environment ◽

10.3126/ije.v3i3.11072 ◽

2014 ◽

Vol 3 (3) ◽

pp. 126-138

Author(s):

Tamiru Hirpa

Keyword(s):

Grain Yield ◽

Spatial Arrangement ◽

Field Studies ◽

Growth And Yield ◽

Southern Ethiopia ◽

Maize Crop ◽

Area Index ◽

Cropping Patterns ◽

Cropping Season ◽

Increasing Trends

Field studies conducted to determine the effects of intercrop row arrangements and staggered intercropping of haricot bean (Phaseolus vulgaris L.) on the performances of maize (Zea mays L.) crop at Hallaba and Taba areas in 2013 cropping season, southern Ethiopia, revealed that there were significant effects of cropping patterns and staggered interseeding of the legume component on growth and yield components of maize crop. Significant interaction of row arrangement × intercropping time of haricot bean was observed with respect to leaf area index (LAI) of the maize crop. Increasing trends of LAI of maize crop were observed as interseeding of haricot bean was delayed for 3 weeks after maize (WAM) that stabilized during the 6 WAM interseeding time. Maize stover production was significantly high at 1:2 row ratio and delaying of the undersowing haricot bean in the already established maize crop for 6 weeks, 10.94 tha-1 and 11.39 t ha-1, respectively. Maize grain yield showed a significant variation with respect to the staggered sowing of haricot bean, whereby the highest (3.99 t ha-1) being recorded when haricot bean intercropping was delayed for 21 days after maize planting. The data of this study revealed that the larger maize plant canopy providing larger photosynthetic area, attained when haricot bean interseeding was delayed, probably resulted in higher grain yield of maize. DOI: http://dx.doi.org/10.3126/ije.v3i3.11072 International Journal of Environment Vol.3(3) 2014: 126-138

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Effect of Plant Density on Growth and Yield of Maize [Zea mays (L.)] Hybrids at Luyengo, Middleveld of Eswatini

Asian Plant Research Journal ◽

10.9734/aprj/2019/v3i3-430066 ◽

2020 ◽

pp. 1-9

Author(s):

Ndzimandze Sibonginkosi ◽

Mabuza Mzwandile ◽

Tana Tamado

Keyword(s):

Grain Yield ◽

Leaf Area Index ◽

Leaf Area ◽

Plant Density ◽

Growth And Yield ◽

Growth Stages ◽

Area Index ◽

Maize Varieties ◽

Dry Biomass ◽

Early Maturing

Maize is staple food and the most cultivated crop in Eswatini. However, its yield is very low partly due to use of non-optimum plant density for different maturity group maize varieties. Thus, an experiment was conducted at Luyengo, Middleveld of Eswatini during the 2018/2019 cropping season. The experiment consisted of factorial combinations of two varieties [SC 403 (early maturing) and PAN 53 (medium maturing)] and three plant densities (44444 plants/ha, 50000 plants/ha, 57143 plants/ha) in randomised complete block design in three replications. Results showed that medium maturing maize variety PAN 53 had higher leaf area, leaf area index, plant height, cob height (139.4 cm), days to 90% anthesis (69 days), dry biomass, thousand kernels mass (374.0 g), grain yield (43.1 t/ha), and stover mass (59.8 t/ha) than the early maturing variety SC 403. With respect to the effect of plant density, as the plant density increased from 44444 to 57143 plants/ha, leaf area, dry biomass at V12 and R5 growth stages, number of cobs per plant, grain yield, stover mass, and thousand kernels mass (g) were decreased while the leaf area index was increased. The interaction effects of variety and plant density were not significant on all the parameters recorded. Thus, it can be concluded that medium maturing variety PAN 53 and plant density of 44444 plants/ha (90 cm ´ 25 cm) are best options to maximum productivity of maize in the study area. However, it is recommended that the experiment be repeated with inclusion of more varieties and densities to reach at more conclusive recommendation.

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Suitable Planting Density for Chaiya Rice using Parachute Planting Method

Walailak Journal of Science and Technology (WJST) ◽

10.48048/wjst.2020.2398 ◽

2018 ◽

Vol 17 (1) ◽

pp. 19-22

Author(s):

Waranthon RATTANADET ◽

Suchart CHOENGTHONG

Keyword(s):

Grain Yield ◽

Plant Density ◽

Tiller Number ◽

Growth And Yield ◽

Planting Density ◽

Rice Seedlings ◽

Head Development ◽

Significant Difference ◽

Planting Method ◽

The Relationship

The effect of planting density on growth and grain yield of Chaiya rice using parachute planting was examined at Pathum Thani Rice Research Center, from September 2014 to January 2015. The particular objective was to examine the suitable planting density when parachute planting was applied. Five densities of Chaiya rice seedlings were thrown similar to parachuting. Those densities were 22,400, 30,720, 38,400, 48,000 and 56,320 clumps per rai (1 rai = 0.16 ha). Pre-heading growth varied greatly among densities; this variation was partly related to the number of tillers, lower densities having more tillers per clump than higher densities, respectively. The relationship between tiller number and plant height was not similar. The heights of rice at densities of 22,400, 30,720, 38,400, 48,000 clumps per rai were not significantly different within the group but these were significantly different with the planting density of 56,320 clumps per rai. Low densities promote head development as the number of heads per clump was higher than those of high densities in most densities. No significant effect of density on filled-grain and unfilled-grain per head. Seed weight per clump showed significant difference between densities except between those of 38,400 and 48,000 clumps per rai. Grain yield varied among densities. Chaiya rice with 22,400 clumps per rai had the highest yield at 786.38 kg per rai. However, it was not significantly different from yields of rice at densities of 30,720 and 38,400, clumps per rai. However, the grain yield of rice planted at 48,000 and 56,320 clumps per rai was significantly lower than that of 22,400 clumps per rai. It is concluded that there was a consistent effect of plant density on growth and yield of Chaiya rice using parachute planting.

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Improving photosynthesis to increase grain yield potential: an analysis of maize hybrids released in different years in China

Photosynthesis Research ◽

10.1007/s11120-021-00847-x ◽

2021 ◽

Author(s):

Yanyan Yan ◽

Peng Hou ◽

Fengying Duan ◽

Li Niu ◽

Tingbo Dai ◽

...

Keyword(s):

Grain Yield ◽

Leaf Area ◽

Chlorophyll Content ◽

Photosynthetic Rate ◽

Maize Yield ◽

Planting Density ◽

Yield Potential ◽

Photosynthetic Parameters ◽

Area Index ◽

Maize Cultivars

AbstractIn this work, we sought to understand how breeding has affected photosynthesis and to identify key photosynthetic indices that are important for increasing maize yield in the field. Our 2-year (2017–2018) field experiment used five high-yielding hybrid maize cultivars (generated in the 1970s, 2000s, and 2010s) and was conducted in the Xinjiang Autonomous Region of China. We investigated the effects of planting density on maize grain yield, photosynthetic parameters, respiration, and chlorophyll content, under three planting density regimens: 75,000, 105,000, and 135,000 plants ha−1. Our results showed that increasing planting density to the medium level (105,000 plants ha−1) significantly increased grain yield (Y) up to 20.32% compared to the low level (75,000 plants ha−1). However, further increasing planting density to 135,000 plants ha−1 did not lead to an additional increase in yield, with some cultivars actually exhibiting an opposite trend. Interestingly, no significant changes in photosynthetic rate, dark respiration, stomatal density, and aperture were observed upon increasing planting density. Moreover, our experiments revealed a positive correlation between grain yield and the net photosynthetic rate (Pn) upon the hybrid release year. Compared to other cultivars, the higher grain yield obtained in DH618 resulted from a higher 1000-kernel weight (TKW), which can be explained by a longer photosynthetic duration, a higher chlorophyll content, and a lower ratio of chlorophyll a/b. Moreover, we found that a higher leaf area per plant and the leaf area index (HI) do not necessarily result in an improvement in maize yield. Taken together, we demonstrated that higher photosynthetic capacity, longer photosynthetic duration, suitable LAI, and higher chlorophyll content with lower chlorophyll a/b ratio are important factors for obtaining high-yielding maize cultivars and can be used for the improvement of maize crop yield.

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Optimizing Grain Yield and Water Use Efficiency Based on the Relationship between Leaf Area Index and Evapotranspiration

Agriculture ◽

10.3390/agriculture11040313 ◽

2021 ◽

Vol 11 (4) ◽

pp. 313

Author(s):

Guoqiang Zhang ◽

Bo Ming ◽

Dongping Shen ◽

Ruizhi Xie ◽

Peng Hou ◽

...

Keyword(s):

Grain Yield ◽

Water Use Efficiency ◽

Leaf Area Index ◽

Water Use ◽

Plant Density ◽

Maize Yield ◽

Area Index ◽

Irrigation Level ◽

Use Efficiency ◽

The Relationship

Achieving optimal balance between maize yield and water use efficiency is an important challenge for irrigation maize production in arid areas. In this study, we conducted an experiment in Xinjiang China in 2016 and 2017 to quantify the response of maize yield and water use to plant density and irrigation schedules. The treatments included four irrigation levels: 360 (W1), 480 (W2), 600 (W3), and 720 mm (W4), and five plant densities: 7.5 (D1), 9.0 (D2), 10.5 (D3), 12.0 (D4), and 13.5 plants m−2 (D5). The results showed that increasing the plant density and the irrigation level could both significantly increase the leaf area index (LAI). However, LAI expansion significantly increased evapotranspiration (ETa) under irrigation. The combination of irrigation level 600 mm (W3) and plant density 12.0 plants m−2 (D4) produced the highest maize yield (21.0–21.2 t ha−1), ETa (784.1–797.8 mm), and water use efficiency (WUE) (2.64–2.70 kg m−3), with an LAI of 8.5–8.7 at the silking stage. The relationship between LAI and grain yield and evapotranspiration were quantified, and, based on this, the relationship between water use and maize productivity was analyzed. Moreover, the optimal LAI was established to determine the reasonable irrigation level and coordinate the relationship between the increase in grain yield and the decrease in water use efficiency.

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