Wastewater discharge degrades coastal waters and reef communities in southern Thailand.

Runoff and sewage discharge from land developments can cause significant changes in water quality of coastal waters, resulting in coral degradation. Coastal waters around Phuket, Thailand are influenced by numerous sewage outfalls associated with rapid tourism development. Water quality and biological monitoring around the Phuket region was undertaken to quantify water quality and biotic characteristics at various distances from sewage outfalls. The surveys revealed strong gradients in water quality and biotic characteristics associated with tourism concentration levels as well as seasonal variability. Water and reef quality tended to decrease with increasing tourist intensity, but improved with increasing distance from sewage discharge within each of the three study locations. In addition, the effect of wastewater discharge was not localised around the source of pollution, but appeared to be transported to non-developed sites by currents, and exacerbated in the wet season.

Growth Responses to Sodium by Bryophyllum tubiflorum under Conditions Inducing Crassulacean Acid Metabolism.

The dry weight yield of plants of Bryophyllum tubiflorum Harvey, a species with Crassulacean acid metabolism characteristics, increased significantly (P < 1%) in response to added sodium (0.1 milliequivalents per liter NaCl was supplied to the culture solution initially containing less than 0.08 microequivalents per liter of Na) when grown under short day (8 hours) conditions but not when grown under long day conditions (16 hours).From results of other work with Crassulacean acid metabolism species, it appears likely that under long day conditions, the plants assimilate CO(2) by the C(3) pathway but under short day conditions by the Crassulacean acid metabolism pathway in which metabolic processes common to those operating in the C(1) dicarboxylic pathway are active. It is suggested that sodium is involved in plants assimilating CO(2) with the C(4) and Crassulacean acid metabolism pathways.

The requirement for sodium as a micronutrient by species having the c(4) dicarboxylic photosynthetic pathway.

Six species having characteristics of plants with the C(4) dicarboxylic photosynthetic pathway, Echinochloa utilis L. Ohwi et Yabuno (Japanese millet), Cynodon dactylon L. (Bermuda grass), Kyllinga brevifolia Rottb., Amaranthus tricolor L. cv. Early splendour, Kochia childsii Hort., and Portulaca grandiflora Hook (rose moss), responded decisively to 0.1 milliequivalent per liter NaCl supplied to their culture solutions initially containing less than 0.08 microequivalent per liter Na. Chlorosis and necrosis occurred in leaves of plants not receiving sodium. Portulaca failed to set flower in the sodium-deficient cultures. Under similar conditions Poa pratensis L. (Kentucky blue grass) having characteristics of the C(3) photosynthetic pathway made normal growth and did not respond to the addition of sodium. It is concluded from these results and previously reported work that sodium is generally essential for species having the C(4) pathway but not for species with the C(3) pathway.