The relationship between Swiss needle cast symptom severity and level of Phaeocryptopus gaeumannii colonization in coastal Douglas‐fir (Pseudotsuga menziesii var. menziesii)*

This study examined 108 15‐year‐old Douglas‐fir (Pseudotsuga menziesii var. menziesii) trees to investigate whether trees exhibiting less severe Swiss needle cast (SNC) symptoms were more resistant (had less fungal colonization) or more tolerant (maintained healthy foliage under similar infection levels). Trees were sampled from six open pollinated families that were categorized into three disease severity groups (two families for each group; mild, moderate and severe disease symptoms). The amount of retained foliage and level of discoloration were visually assessed on trees in the field. Fungal colonization (as determined by proportion of stomata occluded with pseudothecia and by amount of Phaeocryptopus gaeumannii DNA in sampled needles) was measured on 1‐ and 2‐year‐old needles in the laboratory. Trees in the different disease severity groups were similar with respect to amount of fungus in their needles, yet the trees in the mild symptom group retained higher proportions of needles and maintained greener foliage. The relationship between amount of P. gaeumannii in needles and SNC symptom severity was statistically significant (p < 0.05) for amount of fungal DNA in 1‐year‐old needles and average needle retention (NR) over the last four growing seasons. Average NR decreased with increased amount of pathogen DNA in the mild disease symptom families. This relationship was reversed in the severe disease symptom group and there was no relationship in the moderate disease symptom group. Because the amount of P. gaeumannii DNA in foliage did not differ significantly among the groups, differences in symptom severity were attributed to tolerance, not resistance. Visual scoring of individual trees for average NR over the past four growing seasons could be used to effectively assess for SNC tolerance in Douglas‐fir.     

The influence of damage level in Pinus sylvestris foliage on the performance of diprionid sawflies

I tested the presence of rapid and delayed induced resistance in Pinus sylvestris L. by biotests, rearing three species of diprionid sawflies on defoliated and undefoliated trees. I damaged the pines artificially by cutting mature needles with scissors at the beginning of the growing season. Four levels of defoliation were created on the basis of levels of removed needle biomass. Sawfly larval and cocoon weights were retarded and relative growth rates delayed as a result of an increase in damage level. The larval periods were prolonged at most 2–6 days. The response to the damage was partly species‐specific. The needle water content decreased in the following growing season in connection with low and moderate damage and increased at high damage levels. The nutrient contents of the foliage in the damaged and undamaged trees did not differ significantly. The Scots pine showed damage‐induced changes in food quality after extensive defoliation, which affected, via plant, species using the same host.     

Needle nutrient status of Sirococcus shoot blight‐diseased and healthy Norway spruces

In this study the needle nutrient status of Sirococcus shoot blight‐diseased and healthy Norway spruces (Picea abies) was investigated. Element contents were determined in the current year and 3‐year‐old needles collected in December 2000 from 72 mature trees randomly distributed in the investigated stand. Half of the trees were severely affected by Sirococcus conigenus and had a reduced crown whereas the other trees were unaffected and vigorous. Compared with the uninfected trees, contents of Mg, Ca, P and Mn were significantly lower in the current year and 3‐year‐old needles of diseased trees. Furthermore, analyses of the nutrient contents of needles from severely affected trees revealed insufficient Mg and Ca supply and enhanced N/Mg and N/Ca ratios, when compared with threshold values. The results of this study suggest that imbalanced tree nutrition either has a significant impact on the expression of Sirococcus disease symptoms or fungal infection itself is affecting needle nutrient contents.     

Epicuticular waxes,peroxidase activity and contents of chlorophyll,phaeophytin and carotenoids of needles from Pinus syivestris and picea abies as indicators of air pollution in the region of Stockholm

To trace any possible effects of air pollution stress and injuries on trees around a city centre, needles of Scots pine (Pinus Syivestris L.) and Norway spruce (Picea abies (L.) Karst.) from sites of different distances and directions from Stockholm were analysed. Comparisons were made between needles of different ages, a half to three and a half years old (C ‐ C + 3) for pine up to six and a half years old (C ‐ C + 6) for spruce. Epicuticular waxes, studied by scanning electron microscopy (SEM), showed age‐dependent but site‐independent changes. Different age‐patterns were found in the pine and spruce needles but no dust coverings or lesions were detected, irrespective of the sites. A proportionally increasing peroxidase activity (EC 1.11.1.7) with increasing needle‐age up to the third year was observed in both species. No certain indication of site‐effects, expressed by an unproportional increase of the enzyme activity with increasing needle‐age could be found. Chlorophyll a and b, phaeophytin a and b and carotenoid analyses on the corresponding materials only indicated disturbances in trees from some scattered sampling plots. Thus, neither could the pigment analyses reveal any signs of a general pollution stress in pine and spruce trees from the area in question.     

Quantification of Phaeocryptopus gaeumannii colonization in Douglas‐fir needles by ergosterol analysis

Current assessments of infection levels of Phaeocryptopus gaeumannii, the incitant pathogen of Swiss needle cast disease on Pseudotsuga menziesii, typically rely on surveys of abundance of fruit bodies on diseased needles. The relationship between this measure and internal fungal colonization is unknown. In this article, a series of experiments to determine whether ergosterol can be used to quantify P. gaeumannii internal colonization within Douglas‐fir needles is reported. It was found that ergosterol content in seven commonly occurring Douglas‐fir foliar fungi is proportionally related to biomass, and in P. gaeumannii this relationship is not affected by age of the culture. Furthermore, at four sites tested, P. gaeumannii was the most common fungus species isolated from Douglas‐fir needles, accounting for approximately 50% of the isolations. Ergosterol content in these needles was best related to P. gaeumannii despite the presence of other fungi. The strong relationship between ergosterol and P. gaeumannii is attributed to its greater contribution to total fungal biomass compared with all other fungi present within Douglas‐fir needles.     

Effect of dothistroma needle blight on needle and shoot lengths

The needles of pine trees are indicative of the overall health of the tree, and their length is affected by many factors. This study describes the effect of high levels of pathogen infection on lengths of both needles and shoots. Dothistroma septosporum is an important foliar pathogen of pines causing necrosis and premature defoliation with successive years of high infection leading to growth reduction and in extreme cases tree death. Corsican pine trees with all foliage infected by D. septosporum had needles of primary, secondary and tertiary shoots reduced by 31.8%, 44.0% and 64.2%, respectively, compared to non‐infected trees. Needle lengths were reduced both in the upper and lower portions of the canopy, with a greater reduction lower in the canopy. Trees with high levels of infection had shorter shoots in the upper canopy with fewer, shorter needles on these shoots compared to trees with low levels of infection. The results demonstrate the substantial negative effect on needle and shoot lengths of trees with high levels of D. septosporum infection, comparable to factors such as water and nutrient availability known to have a strong influence on these parameters. The reductions in length reduce the photosynthetic capacity of the tree and compound the immediate reductions caused by necrosis and premature defoliation. These effects on needle and shoot lengths contribute to the reductions in volume growth of affected trees and, moreover, are longer lasting than the immediate effects of necrosis and premature defoliation.     

Impacts of Swiss needle cast on overstory Douglas-fir forests of the western Oregon Coast Range

Tree-ring analysis was applied to assess the impacts of the fungal disease Swiss needle cast on the radial growth of mature Douglas-fir (Pseudotsuga menziesii) forests in the western Oregon Coast Range. Although considered endemic to the Pacific Northwest, Swiss needle cast has significantly lowered productivity in Douglas-fir forests only in the past 20–30 years. To date, studies on Swiss needle cast impacts have almost exclusively involved young (<30 years) plantation trees. To better describe the history of Swiss needle cast and its impacts on older (>80 years) trees, we extracted tree cores from dominant and codominant Douglas-fir and western hemlock (Tsuga heterophylla) in three even-aged stands in western Oregon. In the least affected stand growth rates of both species did not significantly differ, while at the most severely diseased site Douglas-fir radial growth was reduced by as much as 85%. Growth reductions likely associated with Swiss needle cast were dated to as early as 1950, though the most severe impacts occurred after 1984. An index of Swiss needle cast severity significantly (p < 0.01) related to instrumental records of air temperatures such that warm conditions from March through August were associated with reduced radial growth at the most severely affected site. Overall, this study demonstrates that even mature forests of natural origin are susceptible to severe growth reductions by Swiss needle cast, that warmer spring and summer temperatures are associated with Swiss needle cast impacts, and that the disease appears to be increasing in severity.     

Industrial air pollution and peroxidase activity in Scots pine needles – two case studies

The peroxidase activity (EC 1.11.1.7) in homogenates from Scots pine needles (Pinus sylvestries L.) were studied in relation to needle age and sampling locations around two different sources of industrial air pollution. Increased enzyme activity was associated with both increased needle age and proximity to the emission sources. Fluorine contamination in one of the cases was not correlated with enhanced enzyme activity. Enzyme activity levels were considered in relation to variations between trees and between different parts of the same trees.     

Colonization and lignin decomposition of pine needle litter by Lophodermium pinastri

The colonization and lignin decomposition of pine (Pinus thunbergii and Pinus densiflora) needle litter by an endophytic fungus, Lophodermium pinastri, was examined with field observations, a field experiment and laboratory experiments. In pine needles collected from the field, needle mass per length and lignin content were lower in needle portions bearing Lophodermium fruiting bodies than in the remaining needle portions, whereas total carbohydrate content was not different between them. Total and live hyphal lengths were greater in needle portions bearing Lophodermium fruiting bodies than in the remaining needle portions. Lophodermium fruiting bodies were not formed on sterilized needles after a 6‐month incubation on the forest floor, whereas they formed on 20% of non‐sterilized needles, indicating that this fungus can only colonize live needles on the branch. In pure culture decomposition tests, mass loss of lignin was detected for several isolates of L. pinastri, but was variable among isolates and between the needles of two pine species. A comparison of the rDNA‐internal transcribed spacer sequences between L. pinastri isolates of P. thunbergii and P. densiflora indicated that the two groups were phylogenetically separated. This study is the first to show that L. pinastri has the ability to decompose lignin in dead pine needles.     

Presence of fungi in Scots pine needles found to correlate with air quality as measured by bioindicators in northern Spain

Atmospheric pollution has increased worldwide during the last decades affecting forest ecosystems. Thermal power plants give off high levels of contaminants, which can damage forest health. Bioindicators can be helpful tools used for evaluating environment changes by giving an accurate measure of the extent of pollution. The focus of this study was to analyse fungal mycoflora in Pinus sylvestris stands near a thermal power plant and the possible correlation between the presence of the fungi and the air quality as measured by lichens and mosses. Fungi associated with pine needles were selected as subjects of this study because of their phytopathological importance and association with the pine trees' decline. Samples for this study were selected from eight plots in close proximity to a thermal power station in northern Spain. Symptoms of decline were previously observed in all the plots before sampling was performed. Lichens were used as bioindicators of environmental quality in two ways, first using the Index of Atmospheric Purity and second through categorization of lichen species based on their sensitivity. In addition, botanical quality was measured regarding the presence or absence of mosses. With two seasonal samplings (autumn and spring) and the use of four types of pine needle plant material (green needles, dried needles, half–green, half‐dried needles and fallen needles), both endophytes and epiphytes present in the needles were isolated and observed. Thirty fungal species in total were identified of the 1095 isolates obtained. Furthermore, significant differences in fungal isolates were observed between seasons and among the different plant material. Results showed that both environmental air quality and botanical quality were negatively correlated with the relative isolation frequency of fungi. The higher number of isolates was attributed to a possible infection produced by fungi, which could be a leading factor in the trees' decline.     

Diversity and identification of fungi associated with needles of Pinus radiata in Tasmania

Needle fungi have been extensively studied in conifers but rarely in Pinus radiata. Previous studies of P. radiata have been based on fungal isolation and not direct PCR detection from needles. This research was a component of a study examining factors linked to spring needle cast (SNC) in Tasmanian P. radiata plantations and aimed to identify as many as possible of the fungal species commonly associated with P. radiata needles in Tasmanian plantations. Needle samples were collected from 13 sites representative of the range of sites in which P. radiata is grown in Tasmania. Fungi were detected by a direct PCR approach and identified using barcode sequences from a reference collection of isolates from Tasmania, mainland Australia and New Zealand as well as sequences from the international nucleotide sequence databases. The total number of molecular operational taxonomic units (MOTUs) was 152, with 127 detected by direct PCR and sequencing, and only 35 operational taxonomic units (OTUs) isolated by culture-based methods. Dothideomycetes was the most diverse class detected in this study, with many MOTUs detected by direct PCR and not isolated. Leotiomycetes was the second-most diverse class and Sordariomycetes third, with several OTUs frequently isolated but rarely or not at all detected by direct PCR. DNA sequence data facilitated the discrimination and identification of OTUs, but some effort was required to avoid confusion caused by poorly identified isolates in public DNA databases. This is the most comprehensive study yet of fungi associated with pine needles in Australia and highlights the hitherto unrecognised diversity of Teratosphaeriaceae in P. radiata.     

Quantifying the effect of pine mistletoe on the growth of Scots pine

Mistletoe infection results in substantial growth losses in mistletoe‐infected forests. This study reports and evaluates the results of retrospective analyses of radial growth of Scots pine (Pinus sylvestris) in relation to the level of infection of pine mistletoe (Viscum album ssp. austriacum). A total of 43 Scots pine trees were destructively sampled from different sites. Of these trees, 14 were uninfected and 29 were infected. Infection classes were determined using six‐class dwarf mistletoe rating system (DMRS). All needle and mistletoe biomass were removed completely and weighed for each sampled tree. Subsamples from needles and all mistletoe biomass were taken to the laboratory for oven‐dried weight determinations. Five‐cm‐thick wood discs were cut from the stem at the breast height (1.3 m) to determine annual basal area increment for the last 25 years. In addition to DMRS, new infection classes were created using mistletoe‐to‐needle biomass (MB/NB) ratio. The results showed that the radial growth losses could be as much as 41% to 64% at different infection levels. The rate of growth loss in relation to DMRS and MB/NB ratio was similar, but with a larger variability in DMRS values. The results showed that both DMRS rating and MB/NB ratio seem to be important for quantifying growth loss on Scots pine trees infected with mistletoe. The results of this study can also be invaluable in modelling the effects of mistletoe on the growth of Scots pine trees.     

Mycobiota in needles of Abies alba with and without symptoms of Herpotrichia needle browning

The ascomycete Nematostoma parasiticum (syn.: Herpotrichia parasitica) is commonly perceived as the causal agent of the so‐called Herpotrichia needle browning in silver fir (Abies alba). However, its fruitbodies are rarely present on symptomatic needles, which are also colonized by many presumably saprotrophic fungi. We compared the internal colonization of healthy and symptomatic needles on two sites in Poland. In addition, the endophytic mycobiota in needles of various age was recorded on two other sites without disease symptoms. Fungi were isolated from 95.6% of the dead needles and from 62.9% of the living needles on symptomatic trees, whereas on healthy trees, only 45.0% of the needles were colonized internally. Colonization frequency increased with needle age. From a total of 2017 isolates, 116 fungal taxa were identified. Frequency of many species was influenced by needle type. Anthostomella formosa, Gloeosporidiella sp., Hypoxylon fragiforme, Xylaria hypoxylon and X. polymorpha were the most common fungi isolated from living needles. In symptomless living needles, fungi occurred significantly more often in the basal than in the apical parts. In dead needles, the most common fungi were Alternaria alternata, Paraconiothyrium sporulosum, Fusarium sp., Mollisia cinerea, Rhizoctonia sp., Rhizosphaera oudemansii, Thysanophora penicillioides, Xylaria hypoxylon and X. polymorpha. Rhizoctonia sp. was the most frequently isolated fungus in dead needles (23.4%) but occurred rarely also in living needles (0.3–1.1%). The supposed pathogen N. parasiticum was detected only sporadically (at most in 0.6% of the needles). Our findings demonstrate the need for understanding the role of Rhizoctonia sp. in Herpotrichia needle browning disease aetiology.     

Fungi associated with Cyclaneusma needle cast in Scots pine in the west of Poland

Needles of Pinus sylvestris with and without symptoms of Cyclaneusma needle cast, from the west of Poland, were examined for abundance and diversity of fungi using Illumina sequencing. Fungal communities were dominated by Ascomycota (93.6%–98.6% of OTUs). Basidiomycota and non‐culturable fungi were less frequent. Needles were colonized by 260 taxa. Ascomycota, Basidiomycota and Glomeromycota were represented by 149, 39 and 1 taxa. Abundance of fungi was least in 1.5‐year‐old needles attached to twigs and greatest in fallen 2‐year‐old needles. Fungal communities had least diversity in 1.5‐year‐old needles and most diversity in 0.5‐year‐old needles of current growth. It was found that (a) the most common fungi were the needle pathogens Cyclaneusma minus, Lophodermium spp. and Sydowia polyspora; (b) less common potential pathogens were Cenangium ferruginosum, Coniothyrium complex, Desmazierella acicola, Neocatenulostroma germanicum and species in the genera Neodidymelliopsis, Pestalotiopsis, Phoma, Pleurophoma and Pyrenochaeta; (c) common primary or secondary saprotrophs included species of Alternaria, Aureobasidium, Beauveria, Cladophialophora, Cladosporium, Epicoccum, Exophiala, Lecanicillium, Penicillium, Cryptococcus and Kwoniella; (d) Lophodermium was represented mostly by Lophodermium pinastri which occurred 4–72 times more frequently than Lophodermium seditiosum; (e) frequencies of C. minus and C. ferruginosum were lower in the 0.5‐year‐old symptomless needles, increased in the symptomatic and symptomless 1.5‐year‐old needles and decreased after needle fall; (f) frequency of L. seditiosum was highest in 0.5‐year‐old needles; (g) frequency of L. pinastri increased with needle age whereas S. polyspora increased after needle fall; (h) lower frequency of L. pinastrii was associated with higher frequency of S. polyspora. It was concluded that Cyclaneusa needle cast in Poland may be caused by C. minus accompanied by C. ferruginosum, L. seditiosum, L. pinastrii and S. polyspora. Participation of Coniothyrium spp., Epicoccum nigrum, Pestalotiopsis spp. and Phoma spp. in the disease progress cannot be excluded.     

The effects of long‐term exposure to simulated acid rain on the development of pine wilt disease caused by Bursaphelenchus xylophilus

To elucidate the synergetic effects of acid rain on the development of pine wilt disease, we measured the sap flow rate in the stems and the chlorophyll content in the needles of 10‐year‐old Japanese black pine trees, Pinus thunbergii and 12‐year‐old Japanese red pine trees, Pinus densiflora, after exposure to simulated acid rain (SAR, pH 3) or tap water (TW, pH 6.3) as a control. The heat pulse method was used for the estimation of the sap flow rate. No apparent difference was found in the sap flow rate between the trees exposed to SAR and TW, but the chlorophyll content of needles at the end of the treatment was significantly higher in the trees exposed to SAR than in those exposed to TW. When the pinewood nematode, Bursaphelenchus xylophilus, the causal agent of pine wilt disease, was inoculated onto the Japanese black pines that had been exposed to SAR repeatedly for 1 year, the period to death was shortened. Japanese red pines that had been exposed to SAR for 2 years, however, did not show any development of symptoms after the nematode inoculation, suggesting that acid rain only affects pine wilt disease slightly, if at all.     

Differential effects of plant ontogeny and damage type on phloem and foliage monoterpenes in jack pine (Pinus banksiana)

Coniferous trees have both constitutive and inducible defences that deter or kill herbivores and pathogens. We investigated constitutive and induced monoterpene responses of jack pine (Pinus banksiana Lamb.) to a number of damage types: a fungal associate of the mountain pine beetle (Dendroctonus ponderosae Hopkins), Grosmannia clavigera (Robinson-Jeffrey & R.W. Davidson); two phytohormones, methyl jasmonate (MJ) and methyl salicylate (MS); simulated herbivory; and mechanical wounding. We only included the fungal, MJ and mechanical wounding treatments in the field experiments while all treatments were part of the greenhouse studies. We focused on both constitutive and induced responses between juvenile and mature jack pine trees and differences in defences between phloem and needles. We found that phytohormone applications and fungal inoculation resulted in the greatest increase in monoterpenes in both juvenile and mature trees. Additionally, damage types differentially affected the proportions of individual monoterpenes: MJ-treated mature trees had higher myrcene and β-pinene than fungal-inoculated mature trees, while needles of juveniles inoculated with the fungus contained higher limonene than MJ- or MS-treated juveniles. Although the constitutive monoterpenes were higher in the phloem of juveniles than mature jack pine trees, the phloem of mature trees had a much higher magnitude of induction. Further, induced monoterpene concentrations in juveniles were higher in phloem than in needles. There was no difference in monoterpene concentration between phytohormone applications and G. clavigera inoculation in mature trees, while in juvenile trees MJ was different from both G. clavigera and simulated herbivory in needle monoterpenes, but there was no difference between phytohormone applications and simulated herbivory in the phloem.     

The biology of Lophodermella conjuncta Darker on Corsican pine needles

The biology of Lophodermella conjuncta on Corsican pine needles was studied. Results of a spore exclusion experiment and histological examination of needles indicated that infection of young current years needles occurred and that the fungus first colonized only the endodermis. Infection remained latent until symptoms developed, from hyphae penetrating the mesophyll from the endodermis, in July of the year following infection. Ascocarps were produced on second year needles by mid-August. Aseospores were trapped throughout the year.Infected needles were cast prematurely during the third season. The phenomenon of latent infection of pine needles by some pine needle fungi is discussed.     

Fungi infecting Pinus sylvestris needles of various ages

The studies were carried out in three 8–11 year old stands of Pinus sylvestris in Southwestern Poland. They included the isolation of fungi from infection spots which were sampled after 1, 1, 5 and 2, 5 years on living needles developed in 1978 on lower and upper branches of tree crowns. There were 28 fungal species isolated from such needles. An attempt was made to evaluate the role of the 5 most numerous species in causing needle cast of Pinus sylvestris.     

Lophodermium needle cast,insect defoliation and growth responses of young Scots pines in Estonia

Using a retrospective approach, based on historical needle cast disease and insect pest records, data series of needle losses (reconstructed by the use of the needle trace method), tree growth parameters and meteorological data were studied to determine the impact of the appropriate pointer (epidemic or calamity) years on the annual radial and height increment of 46 sample trees in six Scots pine (Pinus sylvestris) stands in Estonia from 1887 to 2006. First, the needle cast epidemics during the last 120 years were retrospectively determined, with resulting 4.6 epidemics per decade as a mean frequency. If the sum of precipitation from May to August reached 300 mm (the mean of 12 epidemic years studied: 361 ± 15 mm), an epidemic of needle cast caused by Lophodermium seditiosum might follow the next year in young plantations. For insect defoliators, similarly clear triggering threshold values of precipitation or temperature could not be determined, although dry and warm summers and mild winters supported the calamities. We separately detected that both larger needle losses and growth reductions in trees related to Lophodermium needle cast epidemic years lasted until the same age of pines, 22–24 years, but for insect pest (diprinoid sawflies) calamity years the growth reduction lasted longer. The relevance of these findings for the prediction of Lophodermium needle cast epidemics is briefly discussed.