Plant-Insect Interactions : Factors influencing herbivory rates in Sorbus aucuparia, Salix herbacea, and Lactuca sibirica

Lundgren, Fanny

January 2024

Plants and insects have been interacting with each other for millions of years which have resulted in a coevolution, forcing both to maximize their fitness and not to be left behind in the race of survival. Insects select which individuals to graze on based on plant qualities that enhance their fitness, yet the factors influencing their choice remain understudied. This study aimed to elucidate why certain plant individuals suffer higher rates of herbivory within populations. Three plant species from different habitats in Scandinavia were surveyed: Sorbus aucuparia (rowan), Salix herbacea (dwarf willow), and Lactuca sibirica (Siberian lettuce). Using standardized protocols from the Herbivory Variability Network, 30 plant individuals were randomly selected in each site and surveyed for herbivore damage. Additionally, data were collected on the nearest neighbor of each plant (representing the same species), resulting in a total of 60 surveyed plants. Results revealed varied herbivory patterns among the species, indicating differential influences of plant size, growth stage, and neighboring plants on herbivory rates. An association between leaf and berry herbivory was found, suggesting that berries are less likely to sustain damage when leaves are already damaged. It suggests that trees retaining undamaged leaves are more proficient in photosynthetic processes and, thus capable of synthesizing berries enriched with higher concentrations of sugars and essential nutrients making them more attractive to insects. There is reason to believe that chemical defenses within the plants play an important role in the result seen in this study. This result provides insight into the behavior of insects, highlighting the complexity of plant-insect interactions and the need for further research to understand the factors driving herbivory patterns.

Plant-insect interaction

herbivory rate

Sorbus aucuparia

Salix herbacea

Lactuca sibirica

Ecology

Ekologi

Systemic fungal diseases in natural plant populations

Wennström, Anders

January 1993

The purpose of this thesis was to study interactions between systemic fungal diseases and perennial plants. Using the systemic rust Puccinia minussensis on the host plant Lactuca sibirica, and the rust Puccinia pulsatillae on the host plant Pulsatilla pratensis, this thesis focused on: (i) the effects of systemic diseases on their hosts (ii) host and pathogen responses to abiotic factors, (iii) the importance of life history strategies for understanding host-pathogen interactions, and (iv) the evolutionary consequences of living in close associations. Results of greenhouse experiments showed that Lactuca sibirica had a high plasticity in growth, since it produced significantly more shoots in favourable than in unfavourable growth conditions. Both the disease levels and the number of healthy shoots (i.e. escape) were significantly higher under favourable conditions. Disease spread within the rhizome was found to be incomplete, and the risk of aecidial- infection decreased with distance from the parent. Furthermore, one isolate of the fungus had highest success and reduced the host plant biomass and shoot production more on the clone it was collected on compared to four other clones . In the field, disease levels were found to fluctuate more at localities subjected to disturbance, the host and pathogen abundances were found to be in phase and the pathogen showed no delayed response to increasing host densities. The rust Puccinia pulsatillae on Pulsatilla pratensis showed no fluctuations between years, low infection rates, and disease levels were higher in ungrazed compared to grazed sites. There was no escape from the disease in this system. A comparison of characteristics of different systemic fungi and hosts with different growth patterns indicated that the life history strategies of both host plants and pathogens need to be studied if the long-term consequences of host-pathogen interactions are to be predicted. / <p>Diss. (sammanfattning) Umeå : Umeå universitet, 1993, härtill 5 uppsatser.</p> / digitalisering@umu

Systemic diseases

rust

smut

Puccinia minussensis

Lactuca sibirica

Puccinia pulsatillae

Pulsatilla pratensis

lateral growth

abiotic factors

disease transmission

Svampsjukdomar hos växter