Category :
Article
article id 5432,
category
Article
Risto Rikala,
Helen J. Jozefek.
(1990).
Effect of dolomite lime and wood ash on peat substrate and development of tree seedlings.
Silva Fennica
vol.
24
no.
4
article id 5432.
https://doi.org/10.14214/sf.a15586
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Effect of dolomite lime and wood ash (0, 0.5, 1, 2, 4, 8 and 16 kg m-3) on the chemical composition of low humified Sphagnum peat was studied. Germination of Scots pine (Pinus sylvestris L.), Norway spruce (Picea abies (L.) H. Karst.) and silver birch (Betula pendula Roth) and the subsequent growth of these seedlings were investigated in a greenhouse experiment. Nutrient concentrations in shoots and roots of pine seedlings were also analysed. The pH of peat increased asymptotically from 3.8 to about 7.0 with increasing lime regimen and to about 8.0 with increasing ash regimen. Wood ash linearly increased electrical conductivity and P, K, and Ca concentrations of peat. Rate of germination, within 7 days, of pine and spruce was best at low pH (<5) while birch seeds had a slightly higher pH optimum (4–6). Germination capacity, within 21 days, was not affected by pH or application regimen of either lime or ash. Pine and spruce seedlings grew best with lime and ash doses of 0.5–2.0 kg m-3, the pH of peat being 4–5. Lime and ash treatments did not affect the growth of birch seedlings, but wood ash increased nutrient concentration of pine seedlings.
The PDF includes an abstract in Finnish.
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Rikala,
E-mail:
rr@mm.unknown
-
Jozefek,
E-mail:
hj@mm.unknown
article id 5360,
category
Article
Risto Rikala,
Pasi Puttonen.
(1988).
Maan lämpötilan vaikutus kuivuusrasitukseen perustuvassa taimien laatutestissä.
Silva Fennica
vol.
22
no.
4
article id 5360.
https://doi.org/10.14214/sf.a15517
English title:
Effect of soil temperature in drought exposure-based test of seedling quality.
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The effect of root exposure on the shoot and root development of Pinus sylvestris (L.) seedlings was studied at two soil temperatures. Roots of bare-rooted three-year-old seedlings were exposed to the temperature of 32°C at relative humidity of 50–40% for 85, 155 and 270 minutes which corresponds to accumulated water pressure deficit of 24, 47 and 91 mbar·h, respectively. Thereafter, seedlings were grown for 65 days at the soil temperatures of 12 and 23°C. Drought exposures inhibited new root initiation, delayed shoot elongation, and reduced shoot and needle growth. The stronger the exposure the larger the proportion of needles from the lower part of current shoot that remained undeveloped. Low soil temperature increased the effect of exposures so that needle elongation and initiation of new root tips of seedlings in cold soil with the longest exposure were inhibited totally. Root growth assessments made in warm soil may overestimate the acclimation potential of planted seedlings.
The PDF includes an abstract in English.
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Rikala,
E-mail:
rr@mm.unknown
-
Puttonen,
E-mail:
pp@mm.unknown
Category :
Research article
article id 1300,
category
Research article
Jaana Luoranen,
Risto Rikala.
(2015).
Post-planting effects of early-season short-day treatment and summer planting on Norway spruce seedlings.
Silva Fennica
vol.
49
no.
1
article id 1300.
https://doi.org/10.14214/sf.1300
Highlights:
Summer planting and short-day treatment advanced the bud burst and increased the height of Norway spruce seedlings after planting, compared to autumn and spring planted or untreated seedlings.
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Effects of short-day (SD) treatment on bud burst, growth and survival of Norway spruce (Picea abies [L.] Karst.) container seedlings after summer planting were studied in an experiment established in Suonenjoki, Central Finland. One-year-old seedlings were SD-treated for three weeks starting on 18 June, 24 June and 8 July 2004 and then planted on 22 July, 5 August, 6 September 2004 and, as a normal spring planting, on 10 May, 2005. Untreated control seedlings were also planted on these dates. Second flush on the planting year and bud burst the following spring was monitored in planted seedlings, whereas seedling height and survival were determined at the end of growing seasons 2004–2006. We observed a non-significant risk of a second flush if seedlings were SD-treated on 18 June. Also, SD-treated seedlings planted in July or August showed advanced bud burst and increased height the following growing season without significant effects on survival, compared to autumn and spring planted seedlings. Planting in July or early August was associated with a significant increase in the incidence of multiple leaders in later years. Based on our results, to begin a three-week SD treatment in late June or early July and then plant seedlings in late July or early August could be a good practice.
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Luoranen,
Natural Resources Institute Finland (Luke), Natural resources and bioproduction, Juntintie 154, FI-77600 Suonenjoki, Finland
E-mail:
jaana.luoranen@luke.fi
-
Rikala,
The Finnish Forest Research Institute, Suonenjoki Unit, Suonenjoki, Finland
E-mail:
rikala@dnainternet.fi
article id 107,
category
Research article
Jaana Luoranen,
Risto Rikala,
Heikki Smolander.
(2011).
Machine planting of Norway spruce by Bracke and Ecoplanter: an evaluation of soil preparation, planting method and seedling performance.
Silva Fennica
vol.
45
no.
3
article id 107.
https://doi.org/10.14214/sf.107
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We evaluated the effects of planting date and planting machine (Bracke: three machines, 69 regeneration areas in three years; Ecoplanter: six areas, two years) on the quality and field performance one and three years after planting of Norway spruce (Picea abies (L.) Karst.) seedlings in central Finland. Both machine types planted on average 1800 seedlings per hectare, and after three years approximately 1600 (Bracke) and 1200 (Ecoplanter) were still alive. This study suggests that planting with a Bracke machine can achieve better regeneration rates than those observed in privately-owned Finnish forests. We characterized the quality of mounding and planting with the Bracke machine as excellent and that of the Ecoplanter as good. The soil preparation method of the Ecoplanter produced humus-rich mounds where seedlings were susceptible to pine weevils and consequently suffered higher mortality. Different machines were used in different regional areas and each machine was operated by different driver/s which may have influenced the results. No negative effects of planting date were observed. Seedling growth decreased if they were tall in relation to their root plug volume, grown too densely in the nursery, and if stored in the field for several months prior to planting. We conclude that mechanized planting is successful when the soil preparation method produces mounds covered by purely mineral soil. Planting from May to the end of September is suitable for seedlings intended for use during this period.
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Luoranen,
Finnish Forest Research Institute, Suonenjoki Research Unit, Juntintie 154, FI-77600 Suonenjoki, Finland
E-mail:
jaana.luoranen@metla.fi
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Rikala,
Finnish Forest Research Institute, Suonenjoki Research Unit, Juntintie 154, FI-77600 Suonenjoki, Finland
E-mail:
rr@nn.fi
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Smolander,
Finnish Forest Research Institute, Suonenjoki Research Unit, Juntintie 154, FI-77600 Suonenjoki, Finland
E-mail:
hs@nn.fi
article id 105,
category
Research article
Jaana Luoranen,
Risto Rikala.
(2011).
Nutrient loading of Norway spruce seedlings hastens bud burst and enhances root growth after outplanting.
Silva Fennica
vol.
45
no.
3
article id 105.
https://doi.org/10.14214/sf.105
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We studied the effects of late season nutrient loading (NLOAD) on the timing of bud burst, growth and changes in nitrogen (N) concentrations in the first growing season after seedlings were outplanted. Two-year-old Norway spruce (Picea abies (L.) Karst.) seedlings with three foliar nitrogen concentration levels (NLOAD levels 11.3, 22.5 and 27.5 g N kg-1 for L, M- and H-seedlings, respectively) were examined in the following three experiments: root growth capacity test (RGC), rooting experiment in the field and soil fertility experiment (‘rich’ or ‘poor’ soil) in the field. Bud burst in RGC was monitored daily and foliar N concentration (field experiments), height and root growth (rooting experiment) at monthly intervals. With respect to the RGC test, no differences in root growth were observed among the three NLOAD levels, but buds of H-seedlings burst 2–6 days earlier than others. In the rooting experiment, nutrient loading increased height and root growth but did not affect the timing of height growth. In the soil fertility experiment, foliar N of H- and M-seedlings decreased rapidly, but the decline was slower in rich soil. Current-year needles had more N in seedlings growing in rich soil and the N concentration declined until height growth ceased whereafter it increased until autumn. Improved growth from nutrient loading seems to last only for the first season after planting and the greatest benefits are enjoyed by seedlings planted in poor soils.
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Luoranen,
Finnish Forest Research Institute, Suonenjoki Research Unit, Juntintie 154, FI-77600, Suonenjoki, Finland
E-mail:
jaana.luoranen@metla.fi
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Rikala,
Finnish Forest Research Institute, Suonenjoki Research Unit, Juntintie 154, FI-77600, Suonenjoki, Finland
E-mail:
rr@nn.fi
article id 175,
category
Research article
Heikki Hänninen,
Jaana Luoranen,
Risto Rikala,
Heikki Smolander.
(2009).
Late termination of freezer storage increases the risk of autumn frost damage to Norway spruce seedlings.
Silva Fennica
vol.
43
no.
5
article id 175.
https://doi.org/10.14214/sf.175
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Over the last few years it has become increasingly common in artificial forest regeneration to extend the planting period by using freezer-stored seedlings for early summer plantings. Developmentally, however, planted freezer-stored seedlings lag behind seedlings planted earlier in the spring. As freezer-stored seedlings also start hardening later, they are more susceptible to early autumn frosts, especially in years when the thermal growing season ends and the first autumn frosts come earlier than usual. By means of computer simulations with a simple temperature sum model and long-term air-temperature data from three locations in Finland, we examined the effect of the freezer-storage termination date on the risk of autumn frost damage to the seedlings. The long-term simulations revealed a drastic effect of year-to-year variation in the thermal conditions during the growing season on the occurrence of autumn frost damage. Such results provide crucial information complementary to those obtained in field experiments, which are always restricted to a relatively short time period. Together with earlier field data, the present results suggest that at an average regeneration site in central Finland, the planting of seedlings whose storage has terminated on 15 June and 22 June involve autumn frost damage every tenth and every fifth year, respectively. The sensitivity analysis revealed that the temperature sum requirement of maturation has a great effect on the risk of autumn frost damage, thus pinpointing the need for experimental studies addressing this ecophysiological trait of the seedlings.
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Hänninen,
Plant Ecophysiology and Climate Change Group (PECC), Department of Biological and Environmental Sciences, Box 65, FI-00014 University of Helsinki, Finland
E-mail:
heikki.hanninen@helsinki.fi
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Luoranen,
Finnish Forest Research Institute, Suonenjoki Research Unit, Juntintie 154, FI-77600 Suonenjoki, Finland
E-mail:
jl@nn.fi
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Rikala,
Finnish Forest Research Institute, Suonenjoki Research Unit, Juntintie 154, FI-77600 Suonenjoki, Finland
E-mail:
rr@nn.fi
-
Smolander,
Finnish Forest Research Institute, Suonenjoki Research Unit, Juntintie 154, FI-77600 Suonenjoki, Finland
E-mail:
hs@nn.fi
article id 210,
category
Research article
Juha Heiskanen,
Markku Lahti,
Jaana Luoranen,
Risto Rikala.
(2009).
Nutrient loading has a transitory effect on the nitrogen status and growth of outplanted Norway spruce seedlings.
Silva Fennica
vol.
43
no.
2
article id 210.
https://doi.org/10.14214/sf.210
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In recent years increased fertilization provided to tree seedlings in the nursery in the previous autumn has been introduced in order to promote good outplanting performance. In this paper this nutrient loading has been studied in order to determine how the increased seedling nutrient status with unaffected seedling size affects both the growth and the nutrient concentration, content and uptake of two-year-old Norway spruce container seedlings (Picea abies (L.) Karsten) after outplanting. Seedling development was monitored for three years at two contrasting soil fertility levels on a sandy test field in two planting years and on one natural forest outplanting site in central Finland. Nutrient loading was shown to increase shoot and root growth in a poor fertility soil during the first growing season after planting, while, after the first growing season, nutrient loading was not found to affect seedling performance. However, although nutrient loading cannot compensate for the availability of nutrients to the seedlings from the soil, it may provide an additional input for fast plantation establishment on poorer sites during the first crucial growing season after outplanting.
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Heiskanen,
The Finnish Forest Research Institute, Suonenjoki Research Unit, FI-77600 Suonenjoki, Finland
E-mail:
juha.heiskanen@metla.fi
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Lahti,
The Finnish Forest Research Institute, Suonenjoki Research Unit, FI-77600 Suonenjoki, Finland
E-mail:
ml@nn.fi
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Luoranen,
The Finnish Forest Research Institute, Suonenjoki Research Unit, FI-77600 Suonenjoki, Finland
E-mail:
jl@nn.fi
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Rikala,
The Finnish Forest Research Institute, Suonenjoki Research Unit, FI-77600 Suonenjoki, Finland
E-mail:
rr@nn.fi
article id 209,
category
Research article
Jaana Luoranen,
Kyösti Konttinen,
Risto Rikala.
(2009).
Frost hardening and risk of a second flush in Norway spruce seedlings after an early-season short-day treatment.
Silva Fennica
vol.
43
no.
2
article id 209.
https://doi.org/10.14214/sf.209
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There have been years in Finland when container seedlings of Norway spruce (Picea abies (L.) Karsten) planted in the summer have been damaged by early-autumn frosts. For August and September plantings, the seedlings can be hardened by means of short-day (SD) treatment, but little information is available about its usability for earlier plantings. We studied the effects of early-season SD treatment on the frost hardiness and risk of a second flush of Norway spruce seedlings. In three successive years, second-year seedlings were grown in a greenhouse or outdoors in the spring and early summer and then subjected to two or three-week SD treatment beginning on the second, third, or fourth week of June. We monitored the height growth cessation, bud formation, and frost hardiness of the seedlings in the nursery. All SD treatments made the height growth cease, but the risk of a second flush increased if the temperature sum was less than 300 d.d. before the beginning of the SD treatment or more than 450 d.d. between the end of the treatment and mid-August. Clearly, then, SD treatment reduced the risk of a second flush in seedlings that had been grown in a greenhouse in the spring. Early-season SD treatment increased the frost hardiness of both needles and stems for late July to early September in comparison with untreated seedlings. Later in the autumn, however, the differences disappeared. Before recommending the use of early-season SD-treated seedlings for summer planting, the method has to be tested in practical field conditions.
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Luoranen,
The Finnish Forest Research Institute, Suonenjoki Research Unit, FI-77600 Suonenjoki, Finland
E-mail:
jaana.luoranen@metla.fi
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Konttinen,
The Finnish Forest Research Institute, Suonenjoki Research Unit, FI-77600 Suonenjoki, Finland
E-mail:
kk@nn.fi
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Rikala,
The Finnish Forest Research Institute, Suonenjoki Research Unit, FI-77600 Suonenjoki, Finland
E-mail:
rr@nn.fi
article id 361,
category
Research article
Jaana Luoranen,
Risto Rikala,
Kyösti Konttinen,
Heikki Smolander.
(2005).
Extending the planting period of dormant and growing Norway spruce container seedlings to early summer.
Silva Fennica
vol.
39
no.
4
article id 361.
https://doi.org/10.14214/sf.361
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In order to make mechanized planting economically viable, the present spring planting period for Norway spruce (Picea abies (L.) Karst.) seedlings in Scandinavia needs to be extended. To evaluate the possibilities to extend the planting period, six field experiments were established in four years during which frozen-stored, dormant seedlings and actively growing seedlings targeted for spring planting were planted regularly from mid-May to mid-July or the end of August. The survival of actively growing seedlings did not differ between planting dates from mid-May to mid-July. For dormant seedlings, however, the later in summer they were planted the lower was the survival. Oversized seedlings grown in the nursery in containers of too small volume, which were usually planted after mid-June, resulted in reduced growth of seedlings after planting. Root egress (growth of roots from root plugs into the surrounding soil) was most rapid in July and early August and slowest in May and September. Results showed that with dormant seedlings the planting period can be extended from May to mid-June without increasing mortality or reducing growth. The planting period for seedlings stored outdoors and those seedlings that were already growing in June for the purpose of spring plantings can be extended even longer, but it must be kept in mind that the risk of mechanical damage and reduced growth increase due to brittleness of the shoot and increased height. Further research is needed to evaluate the risks in practical scale plantings and with seedlings that are specially targeted for planting after mid-June.
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Luoranen,
Finnish Forest Research Institute, Suonenjoki Research Unit, Juntintie 154, FI-77600 Suonenjoki, Finland
E-mail:
jaana.luoranen@metla.fi
-
Rikala,
Finnish Forest Research Institute, Suonenjoki Research Unit, Juntintie 154, FI-77600 Suonenjoki, Finland
E-mail:
rr@nn.fi
-
Konttinen,
Finnish Forest Research Institute, Suonenjoki Research Unit, Juntintie 154, FI-77600 Suonenjoki, Finland
E-mail:
kk@nn.fi
-
Smolander,
Finnish Forest Research Institute, Suonenjoki Research Unit, Juntintie 154, FI-77600 Suonenjoki, Finland
E-mail:
hs@nn.fi
Category :
Review article
article id 147,
category
Review article
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Norway spruce (Picea abies), Scots pine (Pinus sylvestris) and silver birch (Betula pendula) are the major tree species grown in Finnish forest nurseries where 99% of the seedlings are grown in containers first in plastic-covered greenhouses and later outdoors. The main diseases on conifer seedlings are Scleroderris canker (Gremmeniella abietina), Sirococcus blight and cankers (Sirococcus conigenum), snow blights (Herpotrichia juniperi and Phacidium infestans) and needle casts (Lophodermium seditiosum and Meria laricis). Also grey mould (Botrytis cinerea) and birch rust (Melampsoridium betulinum) are among the diseases to be controlled with fungicides. During last years Scleroderris canker has been a problem on Norway spruce, which has been since 2000 the most common species produced in Finnish nurseries. Root die-back (uninucleate Rhizoctonia sp.) on container-grown spruce and pine was a problem in the 1990s. Today the disease has become less common in modern nurseries due to improvements in hygiene and cultivation practice. Since 1991 stem lesions and top dying caused by Phytophthora cactorum has been a problem on birch. The ongoing climate change has already had effect on rusts and powdery mildews as well as other fungi infecting leaves. All diseases, which gain high precipitation and warm and long autumns. For same reasons winter stored seedlings need sprayings against grey mold. Fungal infections are also possible during short-day (SD) treatment, that is necessary for summer and autumn plantings and a beneficial step prior freezing temperatures outside or in freezer storage. Growers are encouraged to use cultural and integrated pest management techniques such as better nursery hygiene, including removing plant debris in nursery growing areas and hot water washing of containers plus removal of diseased, spore-producing seedlings and trees around the nursery.
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Lilja,
Finnish Forest Research Institute, Vantaa, Finland
E-mail:
arja.lilja@metla.fi
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Poteri,
Finnish Forest Research Institute, Suonenjoki, Finland
E-mail:
mp@nn.fi
-
Petäistö,
Finnish Forest Research Institute, Suonenjoki, Finland
E-mail:
rlp@nn.fi
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Rikala,
Finnish Forest Research Institute, Suonenjoki, Finland
E-mail:
rr@nn.fi
-
Kurkela,
Finnish Forest Research Institute, Vantaa, Finland
E-mail:
tk@nn.fi
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Kasanen,
University of Helsinki, Department of Forest Sciences, Helsinki, Finland
E-mail:
rk@nn.fi
Category :
Research note
article id 421,
category
Research note
Pekka Helenius,
Jaana Luoranen,
Risto Rikala.
(2004).
Effect of thawing duration and temperature on field performance of frozen-stored Norway spruce container seedlings.
Silva Fennica
vol.
38
no.
3
article id 421.
https://doi.org/10.14214/sf.421
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Increasing use of frozen storage in nurseries at northern latitudes calls for thawing methods that are safe, economical and easy to apply on a large scale. The easiest and most economical method would be to thaw seedlings in the same boxes they were stored in. However, doing this safely requires more knowledge about how long and at what temperatures seedlings should or can be kept in the boxes without reducing field performance. In this study, 1-yr-old frozen-stored Norway spruce (Picea abies (L.) Karst.) container seedlings were thawed for 4, 8 or 16 days at 4 or 12 °C in cardboard boxes before planting on a reforestation site and on experimental field in mid-June. Some seedlings were also planted on these locations after thawing for only 7 hours at 12 °C in order to separate frozen root plugs. We found some evidence that planting seedlings after short thawing periods (7 hours at 12 °C and 4 days at 4 °C), under which conditions the root plugs remain completely or partly frozen, has a negative effect on field performance of Norway spruce seedlings. Thawing over a 4-8 day period in cardboard boxes at ca. 12 °C appears to ensure complete thawing of the root plugs and unaffected field performance, but is short enough to prevent the growth of mould.
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Helenius,
Finnish Forest Research Institute, Suonenjoki Research Station, Juntintie 154, FI-77600 Suonenjoki, Finland
E-mail:
pekka.helenius@metla.fi
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Luoranen,
Finnish Forest Research Institute, Suonenjoki Research Station, Juntintie 154, FI-77600 Suonenjoki, Finland
E-mail:
jl@nn.fi
-
Rikala,
Finnish Forest Research Institute, Suonenjoki Research Station, Juntintie 154, FI-77600 Suonenjoki, Finland
E-mail:
rr@nn.fi