Common bermudagrass is widely distr

Common bermudagrass is widely distributed throughout the world between 45°N and 45°S (Anderson et al., 1993 and Harlan and de Wet, 1969). Cynodon spp. L.C. Rich. is frequently used in the transition zone where it can provide an excellent surface for golf course fairways and athletic fields. However, these species have a great propensity to be injured or killed with low temperatures in the transition zone ( Munshaw et al., 2006).

Light duration has a large influence on the developmental pattern of grasses and cereals (Hay, 1990). Growth and plant development of tropical forages is variable throughout the year and affected by several environmental factors. Cool temperatures, low levels of solar radiation and low rainfall are among the environmental constraints that have been associated with lower production during the winter months (Newman et al., 2007).

Sinclair et al. (2003) indicated that day length may play a major role in forage production during the short day length (SDL) period of the year. Burton et al. (1988) stated that day length was highly correlated with yield of ‘Coastal’ bermudagrass, with yield reduction occurring in day lengths under 13 h. Therefore, photoperiod influenced dry matter production of forage grasses. Extended photoperiod throughout the cool-season with short-day length months substantially decreased forage yield (Sinclair et al., 1997, Sinclair et al., 2001 and Sinclair et al., 2003).

Ramos-Santana and Rodriguez-Arroyo (1991) reported 22% lower winter-season yield of guinea grass (Panicum maximum Jacq.) cultivars compared to production during long days in Puerto Rico. However, it was not determined whether the loss of production was a result of altered plant growth due to the SDLs, or a response to other environmental characteristics such as low temperature or water deficits. Sinclair et al. (2003) reported that the extension of photoperiod to 15 h increased growth of ‘Pensacola’ bahiagrass, Paspalum notatum Flugge var. saurde parodi; ‘Tifton 85’ bermudagrass; ‘Florakirk’ bermudagrass and ‘Florona’ stargrass, Cynodon nlemfuensis Vanderyst var. nlemfuensis during the natural short days. Few researches with agent winter dormancy of warm season turfgrasses, particularly bermudagrass showed that a clear discoloration in bermudagrass during short days is crucial, because it provides high quality turf for athletic surfaces in warm climates, also this turf has excellent tolerance to salt and drought, and wear (traffic) stresses. Van Esbroeck et al. (2004) observed that ‘Cave-in-Rock’ buffalograss [Buchloe dactyloides (Nutt.) Engelm.] exhibited the largest response to photoperiod; as extending the photoperiod increased dry matter yield up to 129 and 98% during the photoperiods of Oct–Jan and Jan–Mar months, respectively.

The effects of low and freezing temperatures and different photoperiods on morphophysiological characteristics of common bermudagrass turf and the reasons for its dormancy and shoot yellowing during fall and winter seasons were determined.