Interactions between riparian leaves and algal/microbial activity in streams

The effects of leaf leachates derived from six forest trees on algal biomass development was examined in a 3-week experiment in a New Zealand spring. The trees all occur in riparian zones and were Fagus sylvatica and Alnus glutinosa from Europe, Eucalyptus globulus from Australia, Pinus radiata from western North America, and two New Zealand species, Fuchsia excorticata and Nothofagus solandri. Leachates from five species inhibited algal growth relative to controls, whereas leachate from a sixth species (F. excorticata) was stimulatory. In contrast, cellulose breakdown was unaffected by five leachates and inhibited by the other (F. sylvatica). In a second experiment, colonization of leaves and inert substrata (polythene strips) by algae was examined with SEM after 16 days. Algal abundance was greatest on polythene strips and leaves of F. sylvatica, and substantially lower on the other species. Our results indicate that both leaf texture and chemical composition can affect algal colonization and growth, and that chemicals derived from leaves have the potential to both inhibit and stimulate ecosystem processes in streams.