Phospholipid, galactolipid and free sterol composition of fibrous roots from citrus genotypes differing in chloride exclusion ability

Fibrous roots of four citrus hybrids and parent rootstocks from which the hybrids were generated, all selected for their different Cl − exclusion abilities, were assayed for phospholipid, galactolipid and free 4‐desmethylsterol content. There was no correlation between a plant's ability to exclude Cl − and the level of either phospholipid, galactolipid, or total free sterol in the roots of control plants. However, an inverse correlation was established between the ratio of phospholipid to free sterol in control roots and total leaf Cl − levels of plants treated with 50 mol m −3 NaCl for 56 d. With the exception of a significant decrease in hybrid 80‐05‐05, galactolipid levels were unaffected by salt treatment. Phospholipid levels were significantly increased in two parent rootstocks viz. Trifoliate orange ( Poncirus trifoliata (L.). Raf.) and Carrizo citrange ( Citrus sinensis (L.) Osbeck × P. trifoliata ) and one hybrid (80‐02‐08) but were otherwise unchanged by salt treatment. Free sterol levels were significantly increased by salt treatment in all of the better Cl − excluders except Carrizo citrange i.e. in Rangpur lime ( Citrus reticulata Blanco var. austera hybrid?), Cleopatra mandarin ( Citrus reticulata Blanco) and all hybrids except 80–05–13. In all genotypes examined, salt‐treatment resulted in a significant decrease in the ratio of sitosterol to stigmasterol reflecting, primarily, an increase in the stigmasterol level. The two poorer Cl − excluders (Trifoliate orange and hybrid 80–05–13) both underwent a significant decrease in the ratio of ‘more planar’ to ‘less planar’ sterols. The inverse correlation between the phospholipid to free sterol ratio of control plants and leaf Cl − level of salt treated plants suggests that this ratio has the potential to be used as a biochemical marker of Cl − exclusion ability in citrus.