Growth response of Monochasma savatieri to nitrogen, phosphorus, and potassium in the absence of a host plant: essential demand for nutrients of root hemiparasitic plants

Abstract

Monochasma savatieri Franch. ex Maxim is a perennial, parasitic herb used in traditional Chinese medicine and its wild resources have declined sharply in recent years. For a long time, the research on fertilization of parasitic plants mostly focused on parasitic weeds. Despite its urgent need, there are few studies discussing the nutrient requirements of medicinal threatened parasitic plants. In this study, we investigated the growth response of M. savatieri to inorganic solutes. By using an orthogonal design in pot cultivation, the effects of nitrogen, phosphorus, and potassium on growth traits, haustoria formation, and biomass of M. savatieri were determined under greenhouse conditions. The results showed that M. savatieri had a rather significant growth response to different nutrients supplied. Nitrogen, phosphorus, and potassium significantly influenced growth traits, haustoria formation, and biomass of M. savatieri, but differ in the degree. M. savatieri experienced a more significant increase in nitrogen sufficient than phosphorus or potassium sufficient in terms of seedling height (SH), maximum root length, and biomass. There were significant positive correlations between tested parameters. The regression equation for SH, total leaf length, and number of haustoria both showed relatively high R2 values and could be sensitive available indicators. In the absence of hosts and haustoria-inducing factors, M. savatieri was capable of haustoria formation and autotrophic growth for a period of time. We concluded that M. savatieri had a certain demand for inorganic nutrients. The appropriate supply of inorganic nutrients promoted growth and development of M. savatieri.