Stomatal density and needle anatomy of Scots pine (<i>Pinus sylvestris</i>) are affected by elevated CO<sub>2</sub>

Lin, Jinxing; Jach, M. E.; Ceulemans, R.

doi:10.1046/j.1469-8137.2001.00124.x

Cited by 99 publications

(78 citation statements)

References 51 publications

(88 reference statements)

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“…In several studies it has been shown that elevated atmospheric CO 2 affects the morphology and structure of plant leaves by decreasing stomatal density (Woodward and Bazzaz 1988;Pearson et al 1995;Lin et al 2001) and increasing needle thickness and relative area of phloem (Lin et al 2001). Our results conclude that needle traces store some information about needle structure, and that this information can be obtained by using NTM.…”

Section: Discussionsupporting

confidence: 45%

Variation in needle-trace diameter in respect of needle morphology in five conifer species

Pensa¹,

Aalto²,

Jalkanen³

2004

Trees - Structure and Function

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Needle traces have been used for revealing historical changes in needle longevity of Pinus sylvestris L. and Picea abies (L.) H. Karst. In this paper we compared the needle-trace diameter of five conifer species [Abies sibirica Ledeb., Picea abies, Pinus sylvestris, Pseudotsuga menziesii (Mirb.) Franco and Taxus baccata L.] in respect of needle size. In case of P. sylvestris, we studied how needle-trace diameter varied among different growing sites and among different shoots within a site, and related that variation to needle morphology and structure. Pinus sylvestris had the greatest diameter of needle traces (mean€SD=233 €30 mm) followed by T. baccata (141€19 mm) and P. menziesii (121€30 mm). The smallest needle-trace diameter was in A. sibirica (85€21 mm) and P. abies (80€18 mm). Among species, the needle-trace diameter was strongly correlated with needle length (r=0.93, P<0.05). Within P. sylvestris, the needle-trace diameter was significantly affected by location (P<0.001) and varied significantly among shoots within a location (P<0.001). The shoots of P. sylvestris which had greater average diameter of needle traces, tended to have longer (r=0.36, P<0.05), wider (r=0.55, P<0.05) and heavier (r=0.64, P<0.05) needles with greater stomatal density (r=0.55, P<0.05). Although our results do not allow the use of needle-trace diameter to predict properties of needle structure at the present stage, they nevertheless indicate general trends and point to a need for further studies.

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Section: Discussionsupporting

confidence: 45%

Variation in needle-trace diameter in respect of needle morphology in five conifer species

Pensa¹,

Aalto²,

Jalkanen³

2004

Trees - Structure and Function

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“…The same phenomenon was found in a field study comparing Norway spruce trees with deficient and adequate B levels (Sutinen et al 2006). Increased numbers of sieve cells could be an adaptive response to increased need for transport of photoassimilate, as speculated by Lin et al (2001) for needles of Scots pine exposed to elevated CO 2 for four years.…”

Section: The Numbers Of Tanniferous Cells (T Cells) Were Calculated Amentioning

confidence: 99%

Does timing of boron application affect needle and bud structure in Scots pine and Norway spruce seedlings?

Sutinen

Aphalo

Lehto

2007

Trees

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Loss of apical dominance is a well-known boron (B) deficiency symptom in trees. Recent field studies indicate that B deficiency may cause irreversible damage in emerging leader buds leading to bushy growth, and changes in developing needles in mature Norway spruce trees. We experimentally studied if timing of B application affects needles and buds of Scots pine (Pinus sylvestris) and Norway spruce (Picea abies) seedlings with low initial B levels. The treatments were: no B (B0); B supply from the beginning of the simulated summer (B1); starting soon after bud burst (B2) and starting at the occurrence of first needle primordia in new spruce buds (B3). At the end of the experiment, B concentration in B1 was 23 mg kg À1 (pine) or 17 mg kg À1 (spruce) and lower in the later applications. In B0 it was at deficiency limit. In B0, B2 and B3, there were fewer sclerenchyma cells, and cavities occurred in vascular cylinders in pine needles, and in spruce buds there were more tanniferous cells in the primordial shoots compared to B1. Furthermore, in all but B1 there was cell collapse in the bud apex of some spruce seedlings. The experimentally induced changes were the same as earlier reported in B deficient conifers in the field, and indicate, similarly as in the field that adequate B is necessary throughout the growing season for healthy growth, particularly for spruce. The differences between spruce and pines are due, at least partly, to the differences in time frame of needle development and in the differences in development of conducting tissues in the buds.

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“…However, unlike the response to the drought and temperature, stomatal response to elevated CO 2 had contrasting results, varying from a decrease in SD (Lin et al, 2001;Woodward and Kelly, 1995) to a lack of stomatal acclimation within a single generation in wheat (Triticumaestivum L.) and sour oranges (Citrus aurantium L.) (Estiarte et al,1994). This may also be responsible for some exceptional cases observed in the northern and southern populations of the Dipcadi filamentosum studied.…”

Section: Discussionmentioning

confidence: 92%

Assessment of the Diversity of Leaf Epidermal Traits of Dipcadi Filamentosum Medik Among Different Co-Geographical Regions in Nigeria

Abdulkareem¹,

Mustapha

2016

J Agric Sciences

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Stomatal density and needle anatomy of Scots pine (Pinus sylvestris) are affected by elevated CO₂

Cited by 99 publications

References 51 publications

Variation in needle-trace diameter in respect of needle morphology in five conifer species

Variation in needle-trace diameter in respect of needle morphology in five conifer species

Does timing of boron application affect needle and bud structure in Scots pine and Norway spruce seedlings?

Assessment of the Diversity of Leaf Epidermal Traits of Dipcadi Filamentosum Medik Among Different Co-Geographical Regions in Nigeria

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Stomatal density and needle anatomy of Scots pine (Pinus sylvestris) are affected by elevated CO2

Cited by 99 publications

References 51 publications

Variation in needle-trace diameter in respect of needle morphology in five conifer species

Variation in needle-trace diameter in respect of needle morphology in five conifer species

Does timing of boron application affect needle and bud structure in Scots pine and Norway spruce seedlings?

Assessment of the Diversity of Leaf Epidermal Traits of Dipcadi Filamentosum Medik Among Different Co-Geographical Regions in Nigeria

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Stomatal density and needle anatomy of Scots pine (Pinus sylvestris) are affected by elevated CO₂