All Issue

2015 Vol.60, Issue 4 Preview Page

Original Research Article

The Simple and Rough Screening Method of Phosphorus Deficient Tolerance Rice
Woon-Ha Hwang1*
,
Dae-Wook Kim1
,
Jae-Heok Jeong1
,
Han-Yong Jeong1
,
Hyen-Seok Lee1
,
Kyung-Jin Choi
,
Gun-Hwi Lee1
,
In-Jung Lee2
,
Sung-Hwan Oh1
1National Institute of Crop Science (NICS), RDA, Jeonju 55365, Republic of Korea
2School of Applied Bioscience, Kyung pook national university, Deagu 41566, Republic of Korea
*Corresponding Author
31 December 2015. pp. 412-420
PDF XML Citation
Abstract

Even though phosphorus (P) is essential element for plant growth and development, it is not enough for crop production in soil. To breed more P deficient tolerance rice, screening and selection in rice population is needed. We tried to develop more simple and rough screening method for breeding of P deficient tolerance rice. In P deficient condition, tiller number was dramatically decreased among yield components in rice. Though this result, we confirmed tiller number could be the best marker in screening of P deficient tolerance rice. 480 rice genetic resources were cultivated in rice bed tray filled with P deficient soil for four weeks and each dry weight was measured. Among them, the 55 kinds of genetic resource were selected then cultivated in paddy field with 3 fertilizer conditions. Plant dry weight and tiller number in ripening stage were shown significant difference according to P condition. Plant dry weight and tiller number in ripening stage was highly correlated especially in P deficient condition. Furthermore, the tiller number in ripening stage and plant dry weight in rough screening were shown high degree correlation. Though these results, we might expect measuring of plant dry weight after cultivation in rice bed tray filled with P deficient soil could be a simple and effective screening method in selection of P deficient tolerance rice.

Keywords
rice
phosphorus
screening
deficient
tolerance
dry weight
References

REFERENCES

1
T Aziz, M A Rahmatullah Maqsood, M A Tahir, I Ahmad and M A Cheema, Pakistan J Bot, Phosphorus utilization by six brassica cultivars (Brassica juncea L) from tri-calcium phosphate, a relative insoluble P compound, 38; 1529-1538 (2006)
2
S E Beebe, M Rojas, X Yan, M W Blair, F Pedraza, F Munoz, J Tohme and J P Lynch, Crop Sci, Quantitative trait loci for root architecture traits correlated with phosphorus acquisition in common bean, 46; 413-423 (2006)
3
R L Bieleski, Annu. Rev. Plant Physiol, Phosphate pools, phosphate transport, and phosphate availability, 24; 225-52 (1973)
4
P H Brunner, Journal of Industrial Ecology, Substance flow analysis as a decision support tool for phosphorus management, 14(6); 870-3 (2010)
5
D Cordell, Linkoping University, The story of phosphorus. Sustainability implications of global phosphorus scarcity for food security (2010)
6
S Heuer, X Lu, J H Chin, J P Tanaka, H Kanamori, T Matsumoto, T De Leon, V J Ulta, A M Ismail, M Yano and M Wissuwa, Plant Biotechnol. J, Comparative sequence analysis of the major quantitative trait locus phosphorus uptake 1(Pup1) reveal acomplex genetic structure, 7; 456-471 (2009)
7
H Hung, PhD thesis. A and M university. Texas, Studies on tillering ability of rice under phosphorus stress (1985)
8
S M Kaeppler, J L Parke, S M Muelle, L Senior, C Stuber and W F Tracy, Crop Sci, Variation among maize inbred lines and determination of QTL for growth at low phosphorus and responsiveness to arbuscular mycorrhizal fungi, 40; 358-364 (2000)
9
U Khalid, Rice Science, Effect of phosphorus and orrogation levels on yield, water productivity, phosphorus use efficiency and income of lowland rice in northwest Pakistan, 20(1); 61-72 (2013)
10
NIAST (National Institute of Agricultural Science and Technology), Methods of soil and plant analysis, Jeon-ju Korea. RDA. (2000)
11
Rural Development Administration, , Standard cultivation methods of rice, Jeon-ju Korea. RDA. (2001)
12
I Steen, Phosphorus and Potassium, Phosphorus availability in the 21st Century: management of a nonrenewable resource, 217; 25-31 (1998)
13
H A U De Haes, J Jansen, L A Van Der Weijden and W J A L Smit, Phosphate-from surplus to shortage. In: Policy memorandum of the steering Committee for Technology Assessment, Utrecht. Ministry of Agriculture Nature and Food Quality . (2009)
14
A L Smit, P S Bindraban, J J Schrodor, J G Conijn and H G Van Der Neer, Phosphorus in agriculture: global resources trends and developments, Wageningen The Netherlands. Plant Research International B.V. (2009)
15
D A Vaccari, Scientific American, Phosphorus: a looming crisis, 300; 54-59 (2009)
16
J Varley, Analyst, The determination of N, P, and K ions in plant materials, 91; 119-126 (1966)
17
M Wissuwa, K Gatdula and A Ismail, Plant Phys, Candidate gene characterization at the Pup1 locus, a major QTL increasing tolerance to phosphorus deficiency? Small causes with big effects, 133; 1947-1958 (2005)
18
M Wissuwa, M Yano and N Ae, Theor. Appl. Genet, Mapping for phosphorusdeficiency tolerance rice (Oryza sativa L), 97; 777-783 (1998)
Information
  • Publisher :The Korean Society of Crop Science
  • Publisher(Ko) :한국작물학회
  • Journal Title :The Korean Journal of Crop Science
  • Journal Title(Ko) :한국작물학회지
  • Volume : 60
  • No :4
  • Pages :412-420
  • Received Date : 2015-07-01
  • Revised Date : 2015-08-17
  • Accepted Date : 2015-08-19
  • DOI :https://doi.org/10.7740/kjcs.2015.60.4.412
Journal Informaiton The Korean Journal of Crop Science The Korean Journal of Crop Science
Online Submission
  • NRF
  • KOFST
  • KISTI Current Status
  • KISTI Cited-by
  • crosscheck
  • orcid
  • open access
  • ccl
Journal Informaiton Journal Informaiton - close