Seven Days of Consecutive Shade during the Kernel Filling Stages Caused Irreparable Yield Reduction in Corn (Zea mays L.)

Sang Gon Kim; Seonghyu Shin; Gun-Ho Jung; Seong-Guk Kim; Chung-Guk Kim; Mi-Ok Woo; Min Ju Lee; Jin-Seok Lee; Beom-Young Son; Woon-Ho Yang; Young-up Kwon; Kang-Bo Shim

doi:10.7740/kjcs.2016.61.3.196

All Issue

2016 Vol.61, Issue 3 Preview Page Next Page

Original Research Article

Seven Days of Consecutive Shade during the Kernel Filling Stages Caused Irreparable Yield Reduction in Corn (Zea mays L.)

30 September 2016. pp. 196-207

PDF XML

Abstract

In monsoon climates, persistent shade is a troublesome weather condition with an impact on the growth and yield of corn (Zea mays L.). We imposed 7, 14, 21, and 28 days of consecutive shade (CS) on Gwangpyeongok and P3394 corn hybrids at the beginning of the kernel filling stages. Shade had little impact on leaf area and dry matter accumulation in the stem and leaves. However, dry matter accumulation in the ear was severely reduced by approximately 28% and 53% after 14 and 28 days of CS, respectively. For the components of grain yield, 7 and 14 days of shade did irreparable damage to the number of filled kernels, the kernel number per ear row, and the percent of filled kernels, but did little damage or reversible damage after removal of the shade to the 100-grain weight and the row number per ear. Shade significantly reduced the relative growth rate (RGR) due to a decrease in the net assimilation rate (NAR). These results suggest that source activity limitation by shade during the kernel filling stages leads to the inhibition of sink activity and size. The yield of biomass, ear, and grain logistically declined as the length of CS increased. Probit analysis revealed that the number of days of CS needed to cause 25% and 50% reductions in grain yield were 3.7 and 23.1, respectively. These results suggest that the plant yield loss induced by shade at the beginning of the kernel filling stages is mainly achieved within the first 7 days of consecutive shade.

Keywords

corn

kernel filling stage

NAR

RGR

shade

source-sink

References

References

L J Abendroth, R W Elmore, M J Boyer and S K Marlay, Corn growth and development. PMR 1009, Ames, Iowa. Iowa State University Extension. (2011)

Q A Acton, Scholarly Editions. Issues in Life Sciences: Botany and Plant Biology Research: 2011 Edition; 1374, Atlanta, Georgia. USA. (2012)

O K Atkin, B Botman and H Lambers, Functional Ecology, The causes of inherently slow growth in alpine plants: an analysis based on the underlying carbon economics of alpine and lowland Poa species, 10; 698-707 (1996)

B J Atwell, P E Kriedemann and C G N Turnbull, Plants in action: adaptation in nature, performance in cultivation, AU. Macmillan Education. (1999)

B J Atwell, P E Kriedemann and C G Turnbull, Plants in action: adaptation in nature, performance in cultivation; 423, AU. Macmillan Education. (1999)

E G Blackman, J N Black and A W Kemp, Ann. Bot, Physiological and ecological studies in the analysis of plant environment X An analysis of the effects of seasonal variation in day light and temperature on the growth of Helianthus annuus in the vegetative phase, 14; 527-548 (1955)

G E Blackman and G L Wilson, Ann. Bot, VII. An analysis of the differential effects of light intensity on NAR, LAR and RGR of different species, 15; 374-408 (1951)

C I Bliss, Science, The method of probits, 79; 38-39 (1934)

A Cerrudo, J Di Matteo, E Fernandez, M Robles, L O Pico and F H Andrade, Crop and Pasture Science, Yield components of maize as affected by short shading periods and thinning, 64; 580-587 (2013)

C S Cooper, Crop Sci, Response of birdsfoot trefoil and alfalfa to various levels of shade, 6; 63-66 (1966)

J P Cooper, Photosynthesis and productivity in different environments, 3; 482, Cambridge University Press. (1975)

H Y Cui, L B Jin, B Li, J W Zhang, B Zhao, S T Dong and P Liu, Sci. Agric. Sin, Effects of shading on stalks morphology, structure and lodging of summer maize in field, 17; 3497-3505 (2012)

Ng Danalatos, Cs Driessen Kosmas and Yassoglou N Pm., Agronomie, EDP Sciences, The change in the specific leaf area of maize grown under Mediterranean conditions, 14; 433-443 (1994)

H D Gmeling Meyling, Neth. J. Agric. Sci, Effect of light intensity and day length on the rate of leaf appearance in maize, 21; 68-76 (1973)

W A Hoffmann and H Poorter, Annals of Botany, “Avoiding Bias in Calculations of Relative Growth Rate”, 90; 37-42 (2002)

A Hund, E Frascaroli, J Leipner, C Jompuk, P Stamp and Y Fracheboud, Mol. Breed, Cold tolerance of the photosynthetic apparatus: pleiotropic relationship between photosynthetic performance and specific leaf area of maize seedlings, 16; 321-331 (2005)

D R Krieg, Agricultural Water Management, Photosynthetic activity during stress, 7; 249-263 (1983)

H Lambers, III F S Chapin and T L Pons, 2nd Ed. Plant Physiological Ecology ; 322, LLC. NY. USA. Springer Science+Business Media. (2008)

L F M Marcelis, J. Experimental Botany, Sink strength as determinant of dry matter partitioning in the whole plant, 47; 1281-1291 (1996)

D M N Mbewe and R B Hunter, Can. J. Plant Sci, The effect of shade stress on the performance of corn for silage versus grain, 66; 53-60 (1986)

D E Medek, M C Ball and M Schortemeyer, New Phytologist, Relative contributions of leaf area ratio and net assimilation rate to change in growth rate depend on growth temperature: comparative analysis of subantarctic and alpine grasses, 175; 290-300 (2007)

R B Pears and D R Lee, Crop Sci, Photosynthetic and morphological adaptation of alfalfa leaves to light intensity at different stages of maturity, 9; 791-794 (1969)

H Poorter and C Remkes, Oecologia, Leaf-area ratio and ent assimilation rate of 24 wild-species differing in relative growth rate, 83; 553-559 (1990)

H Pooter, 2013, Jul 27. In: PrometheusWiki. Retrieved June 19, 2016, from http://www.publish.csiro.au/prometheuswiki/tiki-pagehistory.php?page=Relative growth rate and its components&preview=14, Relative growth rate and its components (2013)

A J Reed, G W Singletary, J R Schussler, D R Williamson and L Christy, Crop Sci, Shading effects on dry matter and nitrogen partitioning, kernel number, and yield of maize, 29; 819-825 (1988)

S M Samarraie, H E Osman, H R Mian, O E Simsaa and M S Alami, J. King Saud. Univ. Agric. Sci, Shade effects on growth and biomass production of corn and sunflower in western Saudi Arabia, 2; 51-59 (1990)

SAS Institute Inc, SAS/STAT 9.2 User’s Guide, Cary, NC, USA. (2008)

J R Seebauer, G W Singletary, P M krumpelman, M L Ruffo and F E Below, J. Experimental Botany, Relationship of source and sink in determining kernel composition of maize, 61; 511-519 (2010)

M Tollenaar, Maydica, Sink-source relationships during reproductive development in maize. A review, XXII; 49-75 (1977)

S Uhart and F Andrade, Agronomie, EDP Sciences, Source-sink relationship in maize grown in a cool-temperate area, 11; 863-875 (1991)

M J Verheul, C Picatto and P Stamp, Europ. J. Agron, Growth and development of maize seedlings under chilling conditions in the field, 5; 31-43 (1996)

A C White, A Rogers, M Rees and C P Osborne, J. Experimental Botany, How can we make plants grow faster? A source-sink perspective on growth rate, 67; 31-45 (2016)

Y Wu, W Gong, F Yang, X Wang, T Yong and W Yang, Plant Production Science, Responses to shade and subsequent recovery of soya bean in maize-soya bean relay strip intercropping, 19; 206-214 (2016)

L Yuan, J Tang, X Wang and C Li, PLoS ONE, QTL analysis of shading sensitive related traits in maize under two shading treatments, 7; e38696 (2012)

Meteorological observation data, Retrieved June 26, 2016 from http://www.kma.go.kr/weather/climate/past_cal.jsp (2016)

Information

Publisher :The Korean Society of Crop Science
Publisher(Ko) :한국작물학회
Journal Title :The Korean Journal of Crop Science
Journal Title(Ko) :한국작물학회지
Volume : 61
No :3
Pages :196-207
Received Date : 2016-07-03
Revised Date : 2016-08-02
Accepted Date : 2016-08-02
DOI :https://doi.org/10.7740/kjcs.2016.61.3.196

The Korean Journal of Crop Science ISSN:0252-9777(Print) 2287-8432(Online) 한국작물학회지

All Issue

References