Citation: Md. Cramer, The secret life of dust: From the cosmos to the kitchen counter, the big consequences of little things., LIBRARY J, 126(12), 2001, pp. 117-117
Citation: Md. Cramer et al., The effect of supplementation of root zone dissolved inorganic carbon on fruit yield and quality of tomatoes (cv 'Daniella') grown with salinity, SCI HORT A, 89(4), 2001, pp. 269-289
Citation: Md. Cramer et Cha. Titus, Elevated root zone dissolved inorganic carbon can ameliorate aluminium toxicity in tomato seedlings, NEW PHYTOL, 152(1), 2001, pp. 29-39
Citation: Ca. Van Der Merwe et Md. Cramer, Effect of enriched rhizosphere carbon dioxide on nitrate and ammonium uptake in hydroponically grown tomato plants, PLANT SOIL, 221(1), 2000, pp. 5-11
Citation: Hj. Hawkins et al., Root respiratory quotient and nitrate uptake in hydroponically grown non-mycorrhizal and mycorrhizal wheat, MYCORRHIZA, 9(1), 1999, pp. 57-60
Citation: T. Kraaij et Md. Cramer, Do the gas exchange characteristics of alien acacias enable them to successfully invade the fynbos?, S AFR J BOT, 65(3), 1999, pp. 232-238
Citation: Md. Cramer et al., The influence of dissolved inorganic carbon in the rhizosphere on carbon and nitrogen metabolism in salinity-treated tomato plants, NEW PHYTOL, 142(3), 1999, pp. 441-450
Citation: Md. Cramer et Mb. Richards, The effect of rhizosphere dissolved inorganic carbon on gas exchange characteristics and growth rates of tomato seedlings, J EXP BOT, 50(330), 1999, pp. 79-87
Citation: Mm. Van Der Westhuizen et Md. Cramer, The influence of elevated rhizosphere dissolved inorganic carbon concentrations on respiratory O-2 and CO2 flux in tomato roots, J EXP BOT, 49(329), 1998, pp. 1977-1985