Most popular articles
Everything About Peaches. Clemson University Cooperative Extension Service Everything About Peaches Website: whether you are a professional or backyard peach...
Read more
Mission Statement. For the sake of mankind and the world as a whole a further increase of the sustainability...
Read more
Newsletter 9: July 2013 - Temperate Fruits in the Tropics and Subtropics. Download your copy of the Working Group Temperate...
Read more
USA Walnut varieties. The Walnut Germplasm Collection of the University of California, Davis (USA). A description of the Collection and a History...
Read more
China Walnut varieties.
Read more
Become a member

Articles

THE RELATIONSHIPS BETWEEN NITRATE AND MOLYBDENUM CONTENTS IN PINEAPPLE GROWN ON AN INCEPTISOL SOIL

Article number
529_26
Pages
211 – 216
Language
Abstract
Molybdenum is a component of nitrate reductase enzyme, which is known to play an important role in plant nitrate metabolism.
Plants that are molybdenum deficient could have nitrate accumulated in their tissues.
In the first experiment, the relationships between nitrate and molybdenum in parts of field grown pineapple plants were investigated.
The experimental design was a randomized complete block (RCB) with 5 treatments i.e.
O, 0.25, 1.25, 2.5 and 5.0 mg Mo plant-1. The second experiment determined the effect of soil pH on molybdenum adsorption by the soil.
The experiment was an RCB with 2 replicates.
The pH-adjusted soil was incubated with molybdenum for ten days.

Nitrate content in crown and juice correlated with molybdenum in D-leaf of pineapple plants.
Crown nitrate increased linearly with molybdenum content in the leaf (r2 = 0.7) whereas juice nitrate decreased quadratically with the molybdenum content (r2 = 0.6). Molybdenum adsorption by the soil increased with the decreasing soil pH. The nitrate residue found in the fruit may have been due to molybdenum deficiency.
Molybdenum adsorption occurring with the decreasing of soil pH due to nitrification may have caused the deficiency in plants.

Publication
III International Pineapple Symposium
Authors
P. Chairidchai
Keywords
nitrate, molybdenum, soil pH, crown, juice
Full text
https://doi.org/10.17660/ActaHortic.2000.529.26
Online Articles (40)
Duane P. Bartholomew
E. Malezieux
T.C. Ti
G. Sanewski | C. Scott
D.H. Reinhardt | J. da S. Souza
K. G. Rohrbach
Y.K. Chan
M.A. Rebolledo | D.E.A. Uriza | M.L. Rebolledo
S.F.M. Sulaiman
C. Lin | C. Chang
P. Anupunt | P. Chairidchai | A. Kongswat | S. Isawilanon | S. Subhadrabhandu | S. Vasunun | S. Siripat
K. G. Rohrbach | D. Christopher | J. Hu | R. Paull | B. Sipes | C. Nagai | P. Moore | M. McPherson | H. Atkinson | A. Levesley | C. Oda | H. Fleisch | M. McLean
Jose R. Botella | A. S. Cavallaro | C. I. Cazzonelli
M.F. Duval | J.L. Noyer | P. Hamon | G. Coppens d'Eeckenbrugge
M. Graham | L. Ko | V. Hardy | S. Robinson | B. Sawyer | T. O'Hare | M. Jobin | J. Dahler | S. Underhill | M. Smith
Y.K. Chan | H.K. Lee
F. Marie | G. Coppens d'Eeckenbrugge | B. Bernasconi
G. d'Eeckenbrugge | F. Marie
J.R.S. Cabral | G. Coppens d'Eeckenbrugge | A.P. de Matos
G.Coppens d'Eeckenbrugge | J.R.S. Cabral | J. Carlier | M.F. Duval | F.R. Ferreira | F. Leal | J. Leitão | A.P. de Matos | J.L. Noyer | Z. Suárez
E.C. Rabie | H.A. Tustin | K.T. Wesson
M.A. Rebolledo | D.E.A. Uriza | M.L. Rebolledo
C. Chen | Robert E. Paull
S. Thamsurakul | O. Nopamonbodi | S. Charoensook | S. Roenrungroeng
S. Ando | S. Meunchang | P. Wadisirisuk | T. Yoneyama
P. Chairidchai
P. Chongpraditnun | P. Luksanawimol | P. Limsmuthchaiporn | S. Vasunun
S.F.M. Sulaiman
B.S. Sipes | D.P. Schmitt
K. Wang | B.S. Sipes
F. Marie | E. Malezieux | J. Marchal | X. Perrier
A. Matos | J. Cabral | N. Sanches | R. Caldas
S.F.M. Sulaiman
D.A. Murray | J.E. Hoffman
K. Suwanarak | S. Kongsaengdao | S. Vasunun
Chesed M. Sison
C. Pitaksa | A. Chantarasuwan | A. Kongkanjana
H. Abdullah | M.A. Rohaya | H. Rosli | M.Mohamed Selamat
F.J. Kruger | E.C. Rabie | H.A. Tustin | K.T. Wesson