The need for such fast, continuous

The need for such fast, continuous monitoring has led to the
application of ion-selective electrode (ISE) technology to measure
hydroponic macronutrients (Bailey et al., 1988; Cloutier et al.,
1997; Gutierrez et al., 2007). Advantages over standard analytical
methods (spectroscopic techniques) include simple methodology,
direct measurement of analyte, sensitivity over a wide concentration
range, low cost, and portability (Hashimoto et al., 1989; Heinen
and Harmanny, 1992). The key component of an ISE is the
ion-selective membrane that responds selectively to one analyte
in the presence of other ions in a solution. Recently, significant progress
has been made toward the development of various ion-selective
membranes in the area of analytical chemistry. There are
currently ion-selective membranes available for most of the important
hydroponic nutrients, including NO
3 , K+, Ca2+, and Mg2+ (Nielson
and Hansen, 1976; Shen et al., 1998). Reliable phosphate
sensing has been more difficult. Although several polymer membrane-
based phosphate ISEs have been developed (Carey and Riggan,
1994; Glazier and Arnold, 1991), they have generally
exhibited poor selectivity for phosphate and a limited lifetime. As
an alternative, cobalt-based electrodes have been developed and
have exhibited sensitive responses to phosphate and acceptable
selectivity (Xiao et al., 1995; Kim et al., 2011)