Variation in leaf anatomy, vascular traits and nanomechanical cell-wall properties among European beech (Fagus sylvatica L.) provenances

Kardošová, Monika; Husárová, Hana; Kurjak, Daniel; Lagaňa, Rastislav; Šuleková, Miriama; Uhrinová, Veronika; Gömöry, Dušan; Ďurkovič, Jaroslav

doi:10.1007/s13595-020-00986-6

Annals of Forest Science

Table 4 Means and standard deviations of leaf-anatomical, vascular and nanomechanical cell-wall traits

From: Variation in leaf anatomy, vascular traits and nanomechanical cell-wall properties among European beech (Fagus sylvatica L.) provenances

Provenance		Nanomechanical cell-wall properties
		MOE	Adhesion	Deformation	Energy dissipation
		MPa	nN	nm	eV
3	Picardie	4429.3±1724.4	25.97±5.60	2.705±0.223	1407.4±750.5
5	Bretagne	3201.0±885.3	17.07±4.22	2.181±0.425	1119.5±593.9
30	Belzig	5622.9±1177.1	25.15±6.58	2.015±0.241	1157.5±877.4
35	Hinterstoder	7061.2±1111.1	20.01±3.72	1.765±0.093	733.4±139.1
36	Eisenerz	4517.0±257.4	29.12±8.85	1.987±0.236	1688.8±1311.6
50	Janov-Nacetin	3989.0±648.0	20.74±4.86	2.145±0.152	1486.6±159.8
55	Postojna Javor	4470.2±927.7	18.98±5.87	1.964±0.219	936.2±629.2
67	Bilowo	6313.4±2993.8	39.71±9.79	1.855±0.406	2242.7±901.8
		Vascular traits
		Tracheary element area	Tracheary element density	F	S	Relative xylem conductivity
		10⁻⁴ mm²	mm⁻²		10⁻⁷ mm⁴	10⁻⁷ μm⁴ mm⁻²
3	Picardie	1.05±0.35	370.1±124.0	0.0387±0.0018	2.83±2.13	1.167±0.424
5	Bretagne	1.06±0.01	372.8±24.1	0.0396±0.0026	2.85±0.20	1.467±0.229
12	Gruenewald	1.10±0.20	344.5±48.5	0.0380±0.0026	3.21±1.06	1.362±0.360
15	Elspeet	0.86±0.17	365.2±40.2	0.0313±0.0036	2.34±0.70	0.918±0.403
23	Torup	0.94±0.17	377.5±58.5	0.0356±0.0045	2.50±0.88	1.068±0.315
26	Farchau	0.92±0.17	376.8±84.1	0.0345±0.0019	2.43±0.90	1.052±0.294
30	Belzig	0.91±0.18	455.5±104.5	0.0416±0.0052	2.01±1.07	1.292±0.416
35	Hinterstoder	1.05±0.12	364.7±52.5	0.0385±0.0022	2.89±0.85	1.403±0.061
36	Eisenerz	1.05±0.08	350.7±51.1	0.0367±0.0048	2.99±0.50	1.354±0.291
39	Jaworze	1.02±0.10	409.2±20.2	0.0418±0.0048	2.50±0.27	1.420±0.484
43	Jawornik	1.15±0.10	324.0±20.3	0.0374±0.0012	3.56±0.54	1.368±0.316
50	Janov-Nacetin	0.82±0.07	437.4±60.2	0.0361±0.0035	1.89±0.37	0.995±0.144
55	Postojna Javor	1.22±0.61	366.1±179.1	0.0447±0.0078	3.33±6.42	1.410±0.402
62	Aarberg	1.10±0.13	368.3±41.8	0.0404±0.0015	2.98±0.70	1.412±0.456
67	Bilowo	0.99±0.31	364.7±64.8	0.0360±0.0046	2.71±1.43	1.205±0.666
		Leaf structural traits
		Leaf thickness	Mesophyll thickness	Palisade parenchyma thickness	Spongy parenchyma thickness
		μm	μm	μm	μm
3	Picardie	158.39±31.27	137.31±29.93	84.30±17.53	53.02±13.95
5	Bretagne	129.04±13.38	107.37±10.85	63.85±5.63	43.52±10.21
12	Gruenewald	160.37±25.27	139.41±25.09	82.84±17.64	56.57±11.70
15	Elspeet	136.62±12.80	117.49±11.73	76.26±9.54	41.23±2.59
23	Torup	155.93±18.80	135.76±17.81	81.92±12.54	53.84±5.98
26	Farchau	162.02±26.88	142.13±25.20	85.32±13.95	56.80±11.67
30	Belzig	148.40±26.62	128.34±25.23	78.26±14.21	50.09±13.24
35	Hinterstoder	149.57±25.03	130.04±23.02	81.16±14.11	48.89±11.19
36	Eisenerz	154.10±13.17	132.59±11.72	75.60±11.18	57.00±4.86
39	Jaworze	170.96±26.15	151.47±26.21	88.48±20.10	63.00±8.60
43	Jawornik	167.67±15.62	147.27±15.08	88.56±14.58	58.71±6.48
50	Janov-Nacetin	147.46±19.95	126.90±19.38	75.97±15.28	50.93±7.87
55	Postojna Javor	163.95±16.70	144.95±17.06	84.98±10.41	59.98±11.78
62	Aarberg	144.84±11.00	125.54±13.52	79.60±8.68	45.94±4.98
67	Bilowo	150.15±7.01	130.05±7.15	78.34±2.43	51.71±8.60

MOE, reduced Young’s modulus of elasticity; F, tracheary element lumen fraction; S, tracheary element size:number ratio

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