Anne Marte Tronsmo

Overwintering of herbaceous plants in a changing climate. Still more questions than answers.

The increase in surface temperature of the Earth indicates a lower risk of exposure for temperate grassland and crop to extremely low temperatures. However, the risk of low winter survival rate, especially in higher latitudes may not be smaller, due to complex interactions among different environmental factors. For example, the frequency, degree and length of extreme winter warming events, leading to snowmelt during winter increased, affecting the risks of anoxia, ice encasement and freezing of plants not covered with snow. Future climate projections suggest that cold acclimation will occur later in autumn, under shorter photoperiod and lower light intensity, which may affect the energy partitioning between the elongation growth, accumulation of organic reserves and cold acclimation. Rising CO2 levels may also disturb the cold acclimation process. Predicting problems with winter pathogens is also very complex, because climate change may greatly influence the pathogen population and because the plant resistance to these pathogens is increased by cold acclimation. All these factors, often with contradictory effects on winter survival, make plant overwintering viability under future climates an open question. Close cooperation between climatologists, ecologists, plant physiologists, geneticists and plant breeders is strongly required to predict and prevent possible problems.

Induced Resistance as a Possible Means to Control Diseases of Strawberry Caused by Phytophthora spp.

Two putative elicitors of disease resistance (acibenzolar-S-methyl and chitosan) were tested for their effect on crown rot (Phytophthora cactorum) in strawberry. The effect of both compounds was enhanced when the time between treatment and inoculation was prolonged from 2 to 20 days. There were no significant differences between treatments when the concentration of acibenzolar-S-methyl was increased from 10 to 1,000 μg a.i./plant. The lowest tested concentrations of chitosan (10 and 50 μg a.i./plant) resulted in a lower disease score compared with the highest concentrations (250 or 1,000 μg a.i./plant). There were no differences in disease score between treatment with fosetyl-Al, acibenzolar-S-methyl, or chitosan when applied 5 or 15 days before inoculation. The effect of acibenzolar-S-methyl and chitosan also was tested against P. fragariae var. fragariae in alpine strawberry (Fragaria vesca var. alpina cv. Alexandria). Chitosan had no effect, whereas fosetyl-Al and all treatments with acibenzolar-S-methyl (50 or 250 μg a.i./plant; 5, 10, 20, or 40 days before inoculation) reduced the severity of the disease. There were no significant differences between acibenzolar-S-methyl and fosetyl-Al when applied at the same time. Acibenzolar-S-methyl and chitosan at concentrations of 0.5, 5, 50, and 500 μg a.i. ml-1 in V8 juice agar were tested for possible effects on P. cactorum and P. fragariae var. fragariae in vitro. Only chitosan at concentrations of 50 and 500 μg a.i. ml-1 had a growth-retarding effect on P. cactorum. Both acibenzolar-S-methyl and chitosan at a concentration of 500 μg a.i. ml-1 reduced the growth rate of P. fragariae var. fragariae.

Genetic variation between Phytophthora cactorum isolates differing in their ability to cause crown rot in strawberry

Analysis of 44 isolates of Phytophthora cactorum, isolated from strawberry and other hosts, by AFLP showed that the crown rot pathotype is different from leather rot isolates and from P. cactorum isolated from other hosts. 16 of 23 crown rot isolates, including isolates from Europe, Japan, Australia, and New Zealand, were identical in an analysis based on 96 polymorphic bands from seven primer combinations. Leather rot isolates of strawberry could not be distinguished from isolates from other hosts. The pathogenicity test of all 44 isolates on strawberry plants mostly gave unambiguous results, except for three American isolates, which seemed to have reduced aggressiveness compared to the crown rot isolates. These isolates also differed in the AFLP analysis. Comparing information on the origin of the isolates with results from the pathogenicity test, showed that isolates from strawberry fruits or petioles could be either leather rot or crown rot pathotypes. None of the isolates from hosts other than strawberry caused crown rot symptoms in strawberry.

Variation in resistance to different winter stress factors within a full-sib family of perennial ryegrass

AbstractWintering ability in the field and resistance to different winter-stress factors under controlled environmental conditions were studied in a full-sib family of perennial ryegrass (Lolium perenne L.). Significant variation in tolerance to freezing and ice encasement, resistance to pink snow mould (Microdochium nivale) and also in winter survival and spring growth were found between the different genotypes. No strong correlations were found between the resistances to the different stress factors. These results indicate that resistance to different winter-stress factors is controlled by separate genes in perennial ryegrass. A low but significant positive correlation was found between spring growth of plants in the field after the first winter and both freezing tolerance and M. nivale resistance measured in controlled environments. Cold hardening seemed to influence freezing tolerance and M. nivale resistance differently in the different genotypes, since no distinct correlation in tolerance to freezing or resistance to M. nivale was found between unhardened and hardened plants. Tolerance or resistance to most of the winter stress factors measured was positively correlated with plant size.

Infection process of Fusarium graminearum in oats (Avena sativa L.)

Fusarium head blight in small grain cereals has emerged as a major problem in the Nordic countries. However, the impact of this disease in oats has been less investigated than in other cereals. For this reason we have studied the infection process (the optimal time of infection and infection pathways) of Fusarium graminearum in oats and its subsequent effects on kernel infection, deoxynivalenol (DON) content and germination capacity. In a field experiment the oat cultivar Morton was spray-inoculated at different developmental stages, and the highest kernel infection and DON content and lowest germination percentage were observed when inoculation took place at anthesis. Field grown oats affected by a natural Fusarium head blight epidemic and spray-inoculated field and greenhouse oats were used to study the infection pathway. Results showed that the fungus entered primarily through the floret apex into the floret cavity, where it could infect via the internal surfaces of the palea, lemma and caryopsis. Both visual symptoms and fungal infections started at the apical portions of the florets and progressed to the basal portions. Hyphae of F. graminearum grew more profusely on the anthers than on other floret parts during initial stages of infection. Disease development within the oat panicle was slow and is primarily by physical contact between adjoining florets, indicating that the long pedicels give Type II resistance in oats.

Genetic and biological characteristics of Typhula ishikariensis isolates from Norway

Isolates ofTyphula ishikariensis, a snow mold fungus, were collected from five localities in Norway. They were divided into three groups according to genetics, cultural morphology, etc. Group I grew normally at 10 °C. Its mating patterns with Japanese taxa were variable: compatible with both biotypes A and B; compatible with biotype A but incompatible with biotype B; and incompatible with both biotypes. Group I was prevalent in southern inland districts such as Buskerud, Oppland, and Hedmark. Group II had smaller sclerotia as compared to other groups, and its sclerotia were often covered with white mycelium in nature and in culture. Group II was compatible with biotype B only. Group III was characterized by irregular growth at 10 ° C and genetic incompatibility with biotypes A and B. Cultural morphology of group III resembled that of group I at 0 °C. Rind cell patterns of sclerotia did not separate these two groups or biotypes. Isolates of groups II and III were often obtained from coastal regions in Finmark. Mating reactions were variable: monokaryons were compatible with their respective dikaryons, and monokaryons of groups II and III occasionally mated with group I dikaryons. Dikaryons of groups II and III, however did dikaryotize monokaryons of other groups. Norwegian isolates ofT. ishikariensis were highly variable, and the orthodox nomenclature system seemed inapplicalbe at the infraspecific level.

Pythium polare, a new heterothallic oomycete causing brown discolouration of Sanionia uncinata in the Arctic and Antarctic

Pythium polare sp. nov. is a new heterothallic oomycete species isolated from fresh water and moss from various locations in both the Arctic and Antarctic. This water mould is able to infect stems and leaves of Sanionia moss (Sanionia uncinata). Pythium polare causes brown discolouration in in vitro inoculation tests at 5 °C after 5 weeks of inoculation. It is characterized by globose sporangia with various lengths of discharge tubes releasing zoospores and aplerotic oospores with usually one to five antheridia. The sexual structures are only produced in a dual culture of antheridial and oogonial isolates. Phylogenetic analysis, based on ITS sequencing, places all isolated strains of P. polare in a unique new clade, hence it is considered a novel species. Pythium canariense and Pythium violae are the most closely related species of P. polare based both on morphology and the phylogenetic analysis.

Testing Snow Mould Resistance of Winter Wheat: Inoculation Experiments with Microdochium nivale in the Field

Winter survival of 24 winter wheat lines was evaluated at three locations in south-eastern Norway in 1996-97 and 1997-98. Plants were inoculated with a mycelial suspension of Microdochium nivale or a preparation of M. nivale mycelium grown on boiled wheat grains, or they remained uninoculated. Artificially applied inoculum led to a higher disease pressure in some of the trials only. The effect of environmental conditions on variation in winter survival among wheat lines was greater than that of inoculation, and it was therefore difficult to draw a definite conclusion on the variation in specific snow mould resistance.

Occurrence of Pythium ultimum var. ultimum in a greenhouse on Spitsbergen Island, Svalbard.

Pythium ultimum var. ultimum was isolated from carrot seedlings with damping off and from soil used for growing the plant in a greenhouse on Spitsbergen Island, Svalbard. The fungus caused severe damping off of carrot, cucumber and tomato seedlings after artificial inoculation. The rDNA internal transcribed spacer sequences of the Svalbard isolate were identical to those of Canadian and Japanese isolates of P. ultimum var. ultimum. The results suggest that the pathogen in the greenhouse on Svalbard was probably introduced from temperate regions through contaminated plants and/or soil imported to the island. This is the first record of P. ultimum var. ultimum within the Arctic zone.

EFFECTS OF TEMPERATURE ON GROWTH AND INTRACELLULAR PROTEINS OF NORWEGIAN TYPHULA ISHIKARIENSIS ISOLATES

Growth of two groups of strains (group I and III) of the snow mould fungus, Typhula ishikariensis from northern Norway, were studied in agar and liquid culture. All strains could grow from—5 to 15 (group III) or 20°C (group I) and the optimum temperatures for growth were 4 or 10°C, respectively. The group III strains showed irregular growth as the hypal extensions were inhibited at 15°C. Different temperature two‐dimensional electrophoresis revealed that in the group III strains some intracellular proteins were modified at the highest temperature. One of the reasons that group III strains did not grow or showed irregular growth at 20 or 15°C, was probably due to protein aggregation or dissociation and thereby loss of vital properties of intracellular proteins.