Abstract
BackgroundMistletoes are the most successful group of obligatory hemi-parasitic flowering plants that attach to the host via haustorium for obtaining water and minerals. This review aims to assess the current knowledge on mistletoes host plant recognition, haustorium formation, water/minerals acquisition, and host plants’ defense signaling and responses against mistletoe attack.ResultsSome mistletoes are host-specific while others are generalists occurring on a wide range of vascular plants. The host nitrogen (N) content, parasite–host chemical interactions, compatibility, and dispersal agents are the main determinant factors for host specificity. Mistletoes take up substantial amounts of water and minerals passively via apoplastic routes, and most are xylem feeders, but could shift to phloem-feeding during the physiological stress of the host plants. Current evidence highlighted that cell wall loosening and modification are critical during the development of the haustorium in the host tissue. This is made possible by the application of physical pressures by the developing haustorium and cell wall degradation using enzymes (xyloglucan endotransglycosylases, glucanase, expansins, etc.) produced by the mistletoe. Host plants defend against mistletoe infection mechanically by producing spines, lignin, suberin, etc., which discourages dispersers, and chemically defend by killing the infector or inhibiting the establishment of the haustorium using their secondary metabolites such as terpenes, phenolics, and N-containing compounds. Although the host plants' response to mistletoe attack resembles the response to other biotic stresses, unlike short-term stressors, the effect of mistletoe attack is long-term and depends on the parasite load. Infection by mistletoe leads to water and nutrient stress of the host plant and deteriorates its healthy establishment and survival.ConclusionMistletoes are heterogeneous group in the order Santalales which have versatile mechanisms for pollination, seed dispersal and nutrient acquisition from host plants. Infection by mistletoes triggers host plant responses, varying from mechanical to chemical mechanisms which are analogous to herbivory defences, and negatively impacts host plant growth and reproduction.
Highlights
Mistletoes are the most successful group of parasitic flowering plants in the order Santalales (Nickrent 2011; Glatzel and Geils 2009) that parasitize the aerial parts of aMuche et al Ecological Processes (2022) 11:24 and a few are specialists that infect only specific species (Gibson 1967; Glatzel and Geils 2009; Okubamichael et al 2016)
Conclusions and future directions Mistletoes have a detrimental effect on associated hosts
Host– mistletoes interaction in terms of water and nutrient uptake indicates that the mistletoes are obligate hemiparasitic plants that acquire water, solutes, hormonal compounds, and others passively, which is achieved by increased transpiration rates and lower water potential
Summary
Mistletoes are the most successful group of parasitic flowering plants in the order Santalales (Nickrent 2011; Glatzel and Geils 2009) that parasitize the aerial parts of aMuche et al Ecological Processes (2022) 11:24 and a few are specialists that infect only specific species (Gibson 1967; Glatzel and Geils 2009; Okubamichael et al 2016). Mistletoes are the most successful group of parasitic flowering plants in the order Santalales (Nickrent 2011; Glatzel and Geils 2009) that parasitize the aerial parts of a. Mistletoes evolved through five separate times in sandalwood order (Santalales). This polyphyletic group of aerial stem obligate hemi-parasites are represented by five Santalales families (Misodendronaceae, Eremolepidaceae, Santalaceae, Loranthaceae, and Viscaceae), 88 genera, and nearly 1600 species (Vidal-Russell and Nickrent 2008; Nickrent 2011). Mistletoes are attached to the host via a modified root called the haustorium (Press and Phoenix 2005; Vidal-Russell and Nickrent 2008; Nickrent 2011), which distinguishes them from epiphytic or mycoheterotrophic plants (Nickrent and Musselman 2004). Mistletoes are the most successful group of obligatory hemi-parasitic flowering plants that attach to the host via haustorium for obtaining water and minerals. This review aims to assess the current knowledge on mistletoes host plant recognition, haustorium formation, water/minerals acquisition, and host plants’ defense signaling and responses against mistletoe attack
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