Agriculture Reference
In-Depth Information
Fageria, N. K., V. C. Baligar, and R. J. Wright. 1990. Iron nutrition of plants: An overview on the chemistry and
physiology of its deficiency and toxicity.
Pesq. Agropec. Bras
. 25:553-570.
Fageria, N. K. and H. R. Gheyi. 1999.
Efficient Crop Production
. Campina Grande, Brazil: Federal University
of Paraiba.
Fageria, N. K., H. R. Gheyi, and A. Moreira. 2011b. Nutrient bioavailability in salt affected soils.
J. Plant Nutr.
34:945-962.
Fageria, N. K., M. F. Moraes, E. P. B. Ferreira, and A. M. Knupp. 2012. Biofortification of trace elements in
food crops for human health.
Commun. Soil Sci. Plant Anal
. 43:556-570.
Fageria, N. K., O. P. Morais, and A. B. Santos. 2010. Nitrogen use efficiency in upland rice.
J. Plant Nutr
.
33:1696-1711.
Fageria, N. K. and C. M. R. Souza. 1991. Upland rice, common bean, and cowpea response to magnesium
application on an Oxisol.
Commun. Soil Sci. Plant Anal.
22:1805-1816.
Fageria, N. K. and L. F. Stone. 2008. Micronutrient deficiency problems in South America. In:
Micronutrient
Deficiencies in Global Crop Production
, ed., B. J. Alloway, pp. 245-266. New York: Springer.
Fageria, N. K. and F. J. P. Zimmermann. 1998. Influence of pH on growth and nutrient uptake by crop species
in an Oxisol.
Commun. Soil Sci. Plant Anal
. 29:2675-2682.
Fismes, J., P. C. Vong, A. Guckert, and E. Frossard. 2000. Influence of sulphur on apparent N-use efficiency,
yield and quality of oilseed rape (
Brassica napus
L.) grown on a calcerous soil.
Eur. J. Agron
. 12:127-141.
Fixen, P. E. 1993. Crop responses to chloride.
Adv. Agron
. 50:107-150.
Fixen, P. E., R. H. Gelderman, J. R. Gerwing, and B. G. Farber. 1987. Calibration and implementation of a soil
Cl test.
J. Fert. Issues
4:91-97.
Flowers, T. J. 1988. Chloride as a nutrient and as an osmoticum.
Adv. Plant Nutr.
3:55-78.
Frota, J. N. E. and T. C. Tucker. 1978. Absorption rates of ammonium and nitrate by red kidney beans under salt
and water stress.
Soil Sci. Soc. Am. J
. 42:753-756.
Garg, O. K. 1987. Physiological significance of zinc and iron: Retrospect and prospect.
Indian J. Plant Physiol
.
30:321-331.
Gerendas, J. and B. Sattelmacher. 1997. Significance of Ni supply for growth, urease activity and the concentra-
tion of urea, amino acids, and mineral nutrients of urea-grown plants.
Plant Soil
190:153-162.
Gerendas, J., M. Sailer, M. L. Fendrich, T. Stahl, V. Mersch-Sundermann, and K. H. Muhling. 2008. Influence
of sulfur and nitrogen supply on growth, nutrient status, and concentration of benzyl-isothiocyanate in
cress (
Lepidium sativum
L.).
Sci. Food Agric
. 88:2576-2580.
Glass, A. D. and M. Y. Siddiqi. 1985. Nitrate inhibition of chloride influx in barley: Implications for a proposed
chloride homeostat.
J. Exp. Bot
. 36:556-566.
Goedert, W. J. 1983. Management of the Cerrado soils of Brazil: A review.
J. Soil Sci.
34:405-428.
Goos, R. J., B. E. Johnson, and B. M. Holmes. 1987. Effect of potassium chloride fertilization on two barley
cultivars differing in common root rot reaction.
Can. J. Plant Sci
. 67:395-401.
Graham, R. D. 2008. Micronutrient deficiencies in crops and their global significance. In:
Micronutrient
Deficiencies in Global Crop Production
, ed., B. J. Alloway, pp. 41-61. New York: Springer.
Grattan, S. R. and C. M. Grieve. 1999. Salinity-mineral nutrient relations in horticulture crops.
Scientia
Horticulture
78:127-157.
Gupta, U. C. 1979. Boron nutrition of crop plants.
Adv. Agron
. 31:273-307.
Hale, M. G. and D. M. Orcutt. 1987.
The Physiology of Plants under Stress.
New York: John Wiley & Sons.
Haneklaus, S., E. Bloem, and E. Schnug. 2007. Sulfur and plant disease. In:
Mineral Nutrition and Plant
Disease
, eds., L. E. Datnoff, W. H. Elmer, and D. M. Huber, pp. 101-118. St. Paul, Minnesota: The
American Phytopathological Society.
Hesse, H., V. Nikiforova, B. Gakiere, and R. Hoefgen. 2004. Molecular analysis and control of cysteine biosyn-
thesis: Integration of nitrogen and sulphur metabolism.
J. Exp. Bot.
55:1283-1292.
Hill, W. E. and L. G. Morrill. 1975. Boron, calcium and potassium interactions in Spanish peanuts.
Soil Sci.
Soc. Am. Proc
. 39:80-83.
Hinsinger, P. 1998. How do plant roots acquire mineral nutrients? Chemical processes involved in the rhizo-
sphere.
Adv. Agron
. 64:225-265.
Hitsuda, K., K. Toriyama, G. V. Subbarao, and O. Ito. 2010. Percent relative cumulative frequency approach to
determine micronutrient deficiencies in soybean.
Soil Sci. Soc. Am. J.
74:2196-2210.
Hulagur, B. F. and R. T. Dangarwla. 1983. Effect of zinc, copper and phosphorus fertilization on the content and
uptake of nitrogen and secondary nutrients by hybrid maize.
Madras Agric. J.
70:88-91.
Inal, A. and C. Tarakcioglu. 2001. Effects of nitrogen form on growth, nitrate accumulation, membrane per-
meability and nitrogen use efficiency of hydroponically grown bunch onion under boron deficiency and
toxicity.
J. Plant Nutr
. 24:1521-1534.
