Soil profile, climatic, physiographic, overstory and understory data in mixed and monospecific plots of Pinus sylvestris and Pinus pinaster in Spain

Main Authors: Daphne López Marcos, María-Belén Turrión, Felipe Bravo, Carolina Martínez-Ruiz
Format: info dataset Journal
Bahasa: eng
Terbitan: , 2020
Subjects:
Online Access: https://zenodo.org/record/4384530
Daftar Isi:
  • This dataset provides valuable environmental information about a triplets’ essay of Scots pine and Maritime pine in Spain. The data characterizes the soil profile (physicochemical parameters of organic and mineral horizons), climate, physiography, understory and overstory. The essay, located in North-Central Spain, consists of eighteen forest plots divided in six triplets. Each triplet includes three circular plots of 15 m-radius located less than 1 km from each other: two monospecific plots dominated by P. sylvestris or P. pinaster, and one mixed plot of both species. In each plot, one pit up to 50 cm depth, one 15 m-radius overstory features inventory and ten understory 1x1 m inventories were carried out. Additionally, physiographic and climatic variables were collected per plot. The file contains information about the 218 environmental variables studied in the eighteen forest plots. Triplet: Triplet to which the plot belongs(1: Triplet 1; 2: Triplet 2; 3: Triplet 3; 4: Triplet 4; 5: Triplet 5; 6: Triplet 6). Stand_type: Type of stand (PS: monospecific stand of Pinus sylvestris L.; PP: monospecific stand of Pinus pinaster Ait.; MM: mixed stand of Pinus sylvestris L.and Pinus pinaster Ait.). Plot: Plot identification (PS01: monospecific stand of Pinus sylvestris L. of triplet 1; PS02: monospecific stand of Pinus sylvestris L. of triplet 2; PS03: monospecific stand of Pinus sylvestris L. of triplet 3; PS04: monospecific stand of Pinus sylvestris L. of triplet 4; PS05: monospecific stand of Pinus sylvestris L. of triplet 5; PS06: monospecific stand of Pinus sylvestris L. of triplet 6; MM01: mixed stand of Pinus sylvestris L.and Pinus pinaster Ait. of triplet 1; MM02: mixed stand of Pinus sylvestris L.and Pinus pinaster Ait. of triplet 2; MM03: mixed stand of Pinus sylvestris L.and Pinus pinaster Ait. of triplet 3; MM04: mixed stand of Pinus sylvestris L.and Pinus pinaster Ait. of triplet 4; MM05: mixed stand of Pinus sylvestris L.and Pinus pinaster Ait. of triplet 5; MM06: mixed stand of Pinus sylvestris L.and Pinus pinaster Ait. of triplet 6; PP01: monospecific stand of Pinus pinaster Ait. of triplet 1; PP02: monospecific stand of Pinus pinaster Ait. of triplet 2; PP03: monospecific stand of Pinus pinaster Ait. of triplet 3; PP04: monospecific stand of Pinus pinaster Ait. of triplet 4; PP05: monospecific stand of Pinus pinaster Ait. of triplet 5; PP06: monospecific stand of Pinus pinaster Ait. of triplet 6). Lat: Plot latitude in degrees. Long: Plot longitude in degrees. Province: Province to which the plot belongs (B: Province of Burgos; Sp: Province of Soria). Municipality: Municipality to which the plot belongs (M: Town of Mamolar; HP: Town of Hontoria del Pinar; N: Town of Navaleno; St: Town of Soria; CP: Town of Cabrejas del Pinar). Forest: Name of the forest where is located the plot (MB: Mata Blanca; MR: Mata Robledo; FP: Fuente del Pardo; PM: Pajar de la molinera; MP: Mojon Pardo; CM: Cueva de Matarubias). Alti: Plot elevation above sea level in m a.s.l. Slope: Slope (gradient) of the plot in percentage. Ori: Plot orientation in degrees. Clim: Climate classification according to Köppen classification (1936) (Cfb: Temperate without a dry season and temperate summer climate; Csb: Temperate with dry summer climate). XR: Accumulated rainfall in one year according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in mm. JR: January rainfall according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ mm FR: February rainfall according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in mm. MR: March rainfall according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in mm. AR: April rainfall according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in mm. MyR: May rainfall according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in mm. JnR: June rainfall according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in mm. JlR: July rainfall according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in mm. AgR: August rainfall according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in mm. SR: September rainfall according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in mm. OR: October rainfall according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in mm. NR: November rainfall according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in mm. DR: December rainfall according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in mm. XT: Anual mean temperature according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in oC. JT: January temperature according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in oC. FT: February temperature according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in oC. MT: March temperature according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in oC. AT: April temperature according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in oC. MyT: May temperature according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in oC. JnT: June temperature according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in oC. JlT: July temperature according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in oC. AgT: August temperature according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in oC. ST: September temperature according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in oC. OT: October temperature according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in oC. NT: November temperature according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in oC. DT: December temperature according to ‘Atlas Agroclimático de Castilla y León-ITACYL-AEMET’ in oC. Par_mat: Soil parental material according to Spanish Geological Map on a 1M scale. (IGME , 2015) (SM: Sandstones and Marls). Geo_age: Geological age of plot according to Spanish Geological Map on a 1M scale. (IGME, 2015) (Mz: Mesozoic age). Soil: Soil type according to Soil-Survey-Staff (2014) (TpDx: Typic Dystroxerept; TpHx:: Typic Humixerept; AqHx:: Aquic humixerept) Litter_B: Total Leaf Litter Biomass in Mg/ha. FF_Th: Forest floor Thickness in cm. Fs: Percentage of Fresh to Total Leaf Litter in %. Fr: Percentage of Fragmented to Total Leaf Litter in %. Hm: Percentage of Humified to Total Leaf Litter in %. GH1: Fist genetic soil horizon according to Soil Survey-Staff (2014) (Ah: Mineral horizon with accumulation of organic matter. This horizon is formed at the soil surface or below an O horizon). GH2: Second genetic soil horizon according to Soil Survey-Staff (2014) (AB: Transition horizon between A and B. A is a mineral horizon formed at the surface or below an O horizon, B is a subsurface horizon in which the structure of the rock is obliterated; AC: Transition horizon between A and C. A is a mineral horizon formed at the surface or below an O horizon; C is a mineral horizon, excluding hard bedrock, that is little affected by pedogenetic processes; Bw: Mineral B horizon where the development of color or structure are its more important diagnostic characteristics). GH3: Third genetic soil horizon according to Soil Survey-Staff (2014) (Bw: Mineral B horizon where the development of color or structure are its more important diagnostic characteristics; C: Mineral horizon, excluding hard bedrock, that is little affected by pedogenetic processes; Cg: Mineral horizon in which a distinct pattern of mottling occurs that reflects alternating conditions of oxidation and reduction of sesquioxides, caused by seasonal surface waterlogging). Th_H1: Thickness of the first soil horizon in cm. Th_H2: Thickness of the second soil horizon in cm. Th_H3: Thickness of the third soil horizon in cm. moistCol_H1: Wet matrix color (Hue Value/Chroma) of the first soil horizon according to Munsell soil color chards (10YR2/1: black; 10YR2/2: very dark brown; 10YR3/1: very dark grey; 10YR3/2: very dark greyish brown; 10YR4/1: dark grey; 10YR6/3: pale brown). moistCol_H2: Wet matrix colour (Hue Value/Chroma) of the second soil horizon according to Munsell soil color chards (5YR5/8: yellowish red; 7.5YR4/6: strong brown; 10YR3/2: very dark greyish brown; 10YR4/1: dark grey; 10YR4/2: dark greyish brown; 10YR4/4: dark yellowish brown with chroma 4; 10YR4/6: dark yellowish brown with chroma 6; 10YR5/3: brown; 10YR5/4: yellowish brown with chroma 4; 10YR5/6: yellowish brown with chroma 6; 10YR5/8: yellowish brown with chroma 8; 10YR6/4: light yellowish brown; 10YR6/6: brownish yellow). moistCol_H3: Wet matrix colour (Hue Value/Chroma) of the third soil horizon according to Munsell soil color chards (5YR4/6: yellowish red; 10YR4/4: dark yellowish brown with chroma 4; 10YR4/6: dark yellowish brown with chroma 6; 10YR5/8: yellowish brown; 10YR6/1: grey). dryCol_H1:Dry matrix color (Hue Value/Chroma) of the first soil horizon according to Munsell soil color chards (10YR4/1: dark grey; 10YR4/2: dark greyish brown; 10YR5/1: grey with value 5; 10YR5/2: greyish brown; 10YR5/3: brown; 10YR6/1: grey with value 6; 10YR6/2: light yellowish brown; 10YR7/2: light grey). dryCol_H2: Dry matrix color (Hue Value/Chroma) of the second soil horizon according to Munsell soil color chards (7.5YR6/6: redish brown; 10YR4/1: dark grey; 10YR6/1: grey with value 6; 10YR6/2: light yellowish brown with chroma 2; 10YR6/3: pale brown; 10YR6/4: light yellowish brown with chroma 4; 10YR6/6: brownish yellow; 10YR7/3: very pale brown with value 7 and choma 3; 10YR7/4: very pale brown withvalue 7 and choma 4; 10YR8/4: very pale brown with value 8 and choma 4). dryCol_H3: Dry matrix color (Hue Value/Chroma) of the third soil horizon according to Munsell soil color chards (5YR5/6: yellowish red; 7.5YR5/6: strong brown; 10YR6/4: light yellowish brown; 10YR6/6: brownish yellow; 10YR7/4: very pale brown; 10YR8/1: white). Sand_H1: Percentage of sand of the first soil horizon determined by the pipette method (Van-Reeuwijk 2002) according to Soil Survey Staff (2014) in % weight/weight. Sand_H2: Percentage of sand of the second soil horizon determined by the pipette method (Van-Reeuwijk 2002) according to Soil Survey Staff (2014) in % weight/weight. Sand_H3: Percentage of sand of the third soil horizon determined by the pipette method (Van-Reeuwijk 2002) according to Soil Survey Staff (2014) in % weight/weight. Silt_H1: Percentage of silt of the first soil horizon determined by the pipette method (Van-Reeuwijk 2002) according to Soil Survey Staff (2014) in % weight/weight. Silt_H2: Percentage of silt of the second soil horizon determined by the pipette method (Van-Reeuwijk 2002) according to Soil Survey Staff (2014) in % weight/weight. Silt_H3: Percentage of silt of the third soil horizon determined by the pipette method (Van-Reeuwijk 2002) according to Soil Survey Staff (2014) in % weight/weight. Clay_H1: Percentage of clay of the first soil horizon determined by the pipette method (Van-Reeuwijk 2002) according to Soil Survey Staff (2014) in % weight/weight. Clay_H2: Percentage of clay of the second soil horizon determined by the pipette method (Van-Reeuwijk 2002) according to Soil Survey Staff (2014) in % weight/weight. Clay_H3: Percentage of clay of the third soil horizon determined by the pipette method (Van-Reeuwijk 2002) according to Soil Survey Staff (2014) in % weight/weight. Tex_H1: Textural class of the first soil horizon according to Soil Survey Staff (2014) (SL: Sandy Loam; L: Loam). Tex_H2: Textural class of the second soil horizon according to Soil Survey Staff (2014) (SL: Sandy Loam; L: Loam). Tex_H3: Textural class of the third soil horizon according to Soil Survey Staff (2014) (SL: Sandy Loam; L: Loam; CL: Clay loam; C: Clay). Stones_H1: Coarse soil material (> 2 mm) of the first soil horizon in % weight/weight. Stones_H2: Coarse soil material (> 2 mm) of the second soil horizon in % weight/weight. Stones_H3: Coarse soil material (> 2 mm) of the third soil horizon in % weight/weight. bD_H1: Bulk density of the first soil horizon according to (Van-Reeuwijk 2002) in g/cm3. bD_H2: Bulk density of the second soil horizon according to (Van-Reeuwijk 2002) in g/cm3. bD_H3: Bulk density of the third soil horizon according to (Van-Reeuwijk 2002) in g/cm3. pD_H1: Particle density of the first soil horizon according to (Van-Reeuwijk 2002) in g/cm3. pD_H2: Particle density of the second soil horizon according to (Van-Reeuwijk 2002) in g/cm3. pD_H3: Particle density of the third soil horizon according to (Van-Reeuwijk 2002) in g/cm3. Poro_H1: Porosity of the first soil horizon according to (Van-Reeuwijk 2002) in % vol/vol. Poro_H2: Porosity of the second soil horizon according to (Van-Reeuwijk 2002) in % vol/vol. Poro_H3: Porosity of the third soil horizon according to (Van-Reeuwijk 2002) in % vol/vol. pH_H1: pH (1:2.5 H2O) of the first soil horizon according to (Van-Reeuwijk 2002) pH_H2: pH (1:2.5 H2O) of the second soil horizon according to (Van-Reeuwijk 2002) pH_H3: pH (1:2.5 H2O) of the third soil horizon according to (Van-Reeuwijk 2002) EC_H1: Electrical conductivity of the first soil horizon according to (Van-Reeuwijk 2002) in dS/m. EC_H2: Electrical conductivity of the second soil horizon according to (Van-Reeuwijk 2002) in dS/m. EC_H3: Electrical conductivity of the third soil horizon according to (Van-Reeuwijk 2002) in dS/m. avP_H1: Available phosphorus of the first soil horizon according to Olsen and Sommers (1982) in mg/kg. avP_H2: Available phosphorus of the second soil horizon according to Olsen and Sommers (1982) in mg/kg. avP_H3: Available phosphorus of the third soil horizon according to Olsen and Sommers (1982) in mg/kg. avPstock_H1: Available phosphorus stock of the first soil horizon according to López-Marcos et al. (2019) in Mg/ha. avPstock_H2: Available phosphorus stock of the second soil horizon according to López-Marcos et al. (2019) in Mg/ha. avPstock_H3: Available phosphorus stock of the third soil horizon up to 50 cm depth according to López-Marcos et al. (2019) in Mg/ha. avPstock_50: Available phosphorus stock of whole soil profile up to 50 cm depth according to López-Marcos et al. (2019) in Mg/ha. TN_Fs: Total nitrogen of the fresh forest floor analyzed with a LECO-CHN 2000 elemental analyzer in g/kg TN_Fg: Total nitrogen of the fragmented forest floor analyzed with a LECO-CHN 2000 elemental analyzer in g/kg TN_Hm: Total nitrogen of the humified forest floor analyzed with a LECO-CHN 2000 elemental analyzer in g/kg TN_H1: Total nitrogen of the first soil horizon analyzed with a LECO-CHN 2000 elemental analyzer in g/kg. TN_H2: Total nitrogen of the second soil horizon analyzed with a LECO-CHN 2000 elemental analyzer in g/kg. TN_H3: Total nitrogen of the third soil horizon analyzed with a LECO-CHN 2000 elemental analyzer in g/kg. TNstock_H1: Total nitrogen stock of the first soil horizon according to López-Marcos et al. (2019) in Mg/ha. TNstock_H2: Total nitrogen stock of the second soil horizon according to López-Marcos et al. (2019) in Mg/ha. TNstock_H3: Total nitrogen stock of the third soil horizon up to 50 cm depth according to López-Marcos et al. (2019) in Mg/ha. TNstock_50: Total nitrogen stock of whole soil profile up to 50 cm depth according to López-Marcos et al. (2019) in Mg/ha. TOC_Fs: Total organic carbon of the fresh forest floor analyzed with a LECO-CHN 2000 elemental analyzer in g/kg TOC_Fg: Total organic carbon of the fragmented forest floor analyzed with a LECO-CHN 2000 elemental analyzer in g/kg TOC_Hm: Total organic carbon of the humified forest floor analyzed with a LECO-CHN 2000 elemental analyzer in g/kg TOC_H1: Total organic carbon of the first soil horizon analyzed with a LECO-CHN 2000 elemental analyzer in g/kg. TOC_H2: Total organic carbon of the second soil horizon analyzed with a LECO-CHN 2000 elemental analyzer in g/kg. TOC_H3: Total organic carbon of the third soil horizon analyzed with a LECO-CHN 2000 elemental analyzer in g/kg. TOCstock_H1:Total organic carbon stock of the first soil horizon according to López-Marcos et al. (2019) in Mg/ha. TOCstock_H2: Total organic carbon stock of the second soil horizon according to López-Marcos et al. (2019) in Mg/ha. TOCstock_H3: Total organic carbon stock of the third soil horizon up to 50 cm depth according to López-Marcos et al. (2019) in Mg/ha. TOCstock_50: Total organic carbon stock of whole soil profile up to 50 cm depth according to López-Marcos et al. (2019) in Mg/ha. C/N_Fs: Ratio of total organic carbon to total nitrogen of the fresh forest floor C/N_Fg: Ratio of total organic carbon to total nitrogen of the fragmented forest floor C/N_Hm: Ratio of total organic carbon to total nitrogen of the humified forest floor C/N_H1: Ratio of total organic carbon to total nitrogen of the first soil horizon C/N_H2: Ratio of total organic carbon to total nitrogen of the second soil horizon C/N_H3: Ratio of total organic carbon to total nitrogen of the third soil horizon OxC_H1: Easily oxidizable carbon of the first soil horizon according to Walkley (1947) in mg/kg. OxC_H2: Easily oxidizable carbon of the second soil horizon according to Walkley (1947) in mg/kg. OxC_H3: Easily oxidizable carbon of the third soil horizon according to Walkley (1947) in mg/kg. OxCstock_H1: Easily oxidizable carbon stock of the first soil horizon according to López-Marcos et al. (2019) in Mg/ha. OxCstock_H2: Easily oxidizable carbon stock of the second soil horizon according to López-Marcos et al. (2019) in Mg/ha. OxCstock_H3: Easily oxidizable carbon stock of the third soil horizon up to 50 cm depth according to López-Marcos et al. (2019) in Mg/ha. OxCstock_50: Easily oxidizable carbon stock of whole soil profile up to 50 cm depth according to López-Marcos et al. (2019) in Mg/ha. CEC_H1: Cation exchange capacity of the first soil horizon according to Mehlich (1953) in cmol+/kg. CEC_H2: Cation exchange capacity of the second soil horizon according to Mehlich (1953) in cmol+/kg. CEC_H3: Cation exchange capacity of the third soil horizon according to Mehlich (1953) in cmol+/kg. Na+_H1: Exchangeable sodium of the first soil horizon by means of extracting with 1N ammonium acetate (pH=7) (Schollenberger and Simon 1945) in cmol+/kg. Na+_H2: Exchangeable sodium of the second soil horizon by means of extracting with 1N ammonium acetate (pH=7) (Schollenberger and Simon 1945) in cmol+/kg. Na+_H3: Exchangeable sodium of the third soil horizon by means of extracting with 1N ammonium acetate (pH=7) (Schollenberger and Simon 1945) in cmol+/kg. Na+stock_H1: Exchangeable sodium stock of the first soil horizon according to López-Marcos et al. (2019) in Mg/ha. Na+stock_H2: Exchangeable sodium stock of the second soil horizon according to López-Marcos et al. (2019) in Mg/ha. Na+stock_H3: Exchangeable sodium stock of the third soil horizon up to 50 cm depth according to López-Marcos et al. (2019) in Mg/ha. Na+stock_50: Exchangeable sodium stock of whole soil profile up to 50 cm depth according to López-Marcos et al. (2019) in Mg/ha. K+_H1: Exchangeable potassium of the first soil horizon by means of extracting with 1N ammonium acetate (pH=7) (Schollenberger and Simon 1945) in cmol+/kg. K+_H2: Exchangeable potassium of the second soil horizon by means of extracting with 1N ammonium acetate (pH=7) (Schollenberger and Simon 1945) in cmol+/kg. K+_H3: Exchangeable potassium of the third soil horizon by means of extracting with 1N ammonium acetate (pH=7) (Schollenberger and Simon 1945) in cmol+/kg. K+stock_H1: Exchangeable potassium stock of the first soil horizon according to López-Marcos et al. (2019) in Mg/ha. K+stock_H2: Exchangeable potassium stock of the second soil horizon according to López-Marcos et al. (2019) in Mg/ha. K+stock_H3: Exchangeable potassium stock of the third soil horizon up to 50 cm depth according to López-Marcos et al. (2019) in Mg/ha. K+stock_50: Exchangeable potassium stock of whole soil profile up to 50 cm depth according to López-Marcos et al. (2019) in Mg/ha. Ca+2_H1: Exchangeable calcium of the first soil horizon by means of extracting with 1N ammonium acetate (pH=7) (Schollenberger and Simon 1945) in cmol+/kg. Ca+2_H2: Exchangeable calcium of the second soil horizon by means of extracting with 1N ammonium acetate (pH=7) (Schollenberger and Simon 1945) in cmol+/kg. Ca+2_H3: Exchangeable calcium of the third soil horizon by means of extracting with 1N ammonium acetate (pH=7) (Schollenberger and Simon 1945) in cmol+/kg. Ca+2stock_H1: Exchangeable calcium stock of the first soil horizon according to López-Marcos et al. (2019) in Mg/ha. Ca+2stock_H2: Exchangeable calcium stock of the second soil horizon according to López-Marcos et al. (2019) in Mg/ha. Ca+2stock_H3: Exchangeable calcium stock of the third soil horizon up to 50 cm depth according to López-Marcos et al. (2019) in Mg/ha. Ca+2stock_50: Exchangeable calcium stock of whole soil profile up to 50 cm depth according to López-Marcos et al. (2019) in Mg/ha. Mg+2_H1: Exchangeable magnesium of the first soil horizon by means of extracting with 1N ammonium acetate (pH=7) (Schollenberger and Simon 1945) in cmol+/kg. Mg+2_H2: Exchangeable magnesium of the second soil horizon by means of extracting with 1N ammonium acetate (pH=7) (Schollenberger and Simon 1945) in cmol+/kg. Mg+2_H3: Exchangeable magnesium of the third soil horizon by means of extracting with 1N ammonium acetate (pH=7) (Schollenberger and Simon 1945) in cmol+/kg. Mg+2stock_H1: Exchangeable magnesium stock of the first soil horizon according to López-Marcos et al. (2019) in Mg/ha. Mg+2stock_H2: Exchangeable magnesium stock of the second soil horizon according to López-Marcos et al. (2019) in Mg/ha. Mg+2stock_H3: Exchangeable magnesium stock of the third soil horizon up to 50 cm depth according to López-Marcos et al. (2019) in Mg/ha. Mg+2stock_50: Exchangeable magnesium stock of whole soil profile up to 50 cm depth according to López-Marcos et al. (2019) in Mg/ha. SB_H1: Sum of bases of the first soil horizon by means of extracting with 1N ammonium acetate (pH=7) (Schollenberger and Simon 1945) in cmol+/kg. SB_H2: Sum of bases of the second soil horizon by means of extracting with 1N ammonium acetate (pH=7) (Schollenberger and Simon 1945) in cmol+/kg. SB_H3: Sum of bases of the third soil horizon by means of extracting with 1N ammonium acetate (pH=7) (Schollenberger and Simon 1945) in cmol+/kg. SBstock_H1: Sum of bases stock of the first soil horizon according to López-Marcos et al. (2019) in Mg/ha. SBstock_H2: Sum of bases stock of the second soil horizon according to López-Marcos et al. (2019) in Mg/ha. SBstock_H3: Sum of bases stock of the third soil horizon up to 50 cm depth according to López-Marcos et al. (2019) in Mg/ha. SBstock_50: Sum of bases stock of whole soil profile up to 50 cm depth according to López-Marcos et al. (2019) in Mg/ha. FC_H1: Field capacity of the first soil horizon according to Van-Reeuwijk (2002) in %. FC_H2: Field capacity of the second soil horizon according to Van-Reeuwijk (2002) in %. FC_H3: Field capacity of the third soil horizon according to Van-Reeuwijk (2002)) in %. PWP_H1: Permanent wilting point of the first soil horizon according to Van-Reeuwijk (2002) in %. PWP_H2: Permanent wilting point of the second soil horizon according to Van-Reeuwijk (2002) in %. PWP_H3: Permanent wilting point of the third soil horizon according to Van-Reeuwijk (2002) in %. AW_H1: Available water of the first soil horizon according to Van-Reeuwijk (2002) in %. AW_H2: Available water of the second soil horizon according to MAPA (1994) in %. AW_H3: Available water of the third soil horizon according to Van-Reeuwijk (2002) in %. WHC_H1: Water holding capacity of the first soil horizon according to López-Marcos et al. (2019) in g/cm2. WHC_H2: Water holding capacity of the second soil horizon according to López-Marcos et al. (2019) in g/cm2. WHC_H3: Water holding capacity of the third soil horizon up to 50 cm depth according to López-Marcos et al. (2019) in g/cm2. WHC_50: Water holding capacity of whole soil profile up to 50 cm depth according to López-Marcos et al. (2019) in g/cm2. Pot_veg: Potential vegetation according to Rivas-Martínez (1987) (LfQp: Luzulo forsteri-Querceto pyrenaicae S.; FhQp: Festuco heterophyllae-Querceto pyrenaicae S.; Jht: Junipereto hemisphaerico-thuriferae S.). Cur_veg: Current vegetation according to WMS service of MAPAMA(http://wms.mapama.es/sig/Biodiversidad) (ps: Pinus sylvestris L.; pp: Pinus pinaster Ait.; pi: Pinus sylvestris L. and Pinus pinaster Ait.). NT: Stems per hectare of both Pinus species (Pinus sylvestris L. and Pinus pinaster Ait.) in trees/ha. NPs: Stems per hectare of Pinus sylvestris L. in trees/ha. NPp: Stems per hectare of Pinus pinaster Ait. in trees/ha. GT: Basal area per hectare of both Pinus species (Pinus sylvestris L. and Pinus pinaster Ait.) in m2/ha. GPs: Basal area per hectare of Pinus sylvestris L. in m2/ha. GPp: Basal area per hectare of Pinus pinaster Ait. in m2/ha. %PS: Percentage of basal area of Pinus sylvestris L. from total basal area %PP: Percentage of basal area of Pinus pinaster Ait. from total basal area dgT: Quadratic mean diameter of both Pinus species (Pinus sylvestris L. and Pinus pinaster Ait.) in cm. dgPs: Quadratic mean diameter of Pinus sylvestris L. in cm. dgPp: Quadratic mean diameter of Pinus pinaster Ait. in cm. HoT: Dominant height of both Pinus species (Pinus sylvestris L. and Pinus pinaster Ait.) in cm. HoPs: Dominant height of Pinus sylvestris L. in m. HoPp: Dominant height of Pinus pinaster Ait. in m. AgePs: Normal age of Pinus sylvestris L. in years. AgePp: Normal age of Pinus pinaster Ait. In years. SIPs: Site index of Pinus sylvestris L. related at age 100 for total plot according to Rojo and Montero (1999) SIPp: Site index of Pinus pinaster Ait. related at age 100 for total plot according to Bravo-Oviedo et al. (2007) Litter_cov: Cover of leaf litter in %. Vasc: Cover of understory vascular plants in %. Bryo: Cover of understory bryophytes in %. Under_sp: More abundant specie of understory vegetation (Aica: Aira caryophyllea L.; Aruv: Arctostaphylos uva-ursi (L.) Spreng.; Cavu: Calluna vulgaris (L.) Hull; Erar: Erica arborea L.; Erau: Erica australis L.; Pipi: Pinus pinaster Aiton. (seedlings/saplings); Pisy: Pinus sylvestris L. (seedlings/saplings; Ptaq: Pteridium aquilinum (L.) Kuhn) Aqu: Understory cover of family Aquifoliaceae in %. Aste: Understory cover of family Asteraceae in %. Cari: Understory cover of family Cariophyllaceae in %. Cist: Understory cover of family Cistaceae in %. Cupr: Understory cover of family Cupresaceae in %. Eric: Understory cover of family Ericaceae in %. Faba: Understory cover of family Fabaceae in %. Faga: Understory cover of family Fagaceae in %. Junc: Understory cover of family Juncaceae in %. Lili: Understory cover of family Liliaceae in %. Pina: Understory cover of family Pinaceae in %. Poac: Understory cover of family Poaceae in %. Poli: Understory cover of family Poligalaceae in %. Rosa: Understory cover of family Rosaceae in %. Rubi: Understory cover of family Rubiaceae in %. Scro: Understory cover of family Scrofulariaceae in %. Viol: Understory cover of family Violaceae in %. Xant: Understory cover of family Xanthorrhoeaceae in %.
  • When using this data, please cite the original publications that generated the dataset: López-Marcos D, Martínez-Ruiz C, Turrión MB, et al (2018) Soil carbon stocks and exchangeable cations in monospecific and mixed pine forests. Eur J For Res 137:831–847. doi: 10.1007/s10342-018-1143-y López-Marcos D, Turrión MB, Bravo F, Martínez-Ruiz C (2019) Understory response to overstory and soil gradients in mixed vs . monospecific Mediterranean pine forests. Eur J For Res 138(6):939-955 doi: 10.1007/s10342-019-01215-0 López-Marcos D, Turrión MB, Bravo F, Martínez-Ruiz C (2020a) Can mixed pine forests conserve understory richness by improving the establishment of understory species typical of native oak forests ? Ann For Sci 77:15. doi: 10.1007/s13595-020-0919-7 López-Marcos D, Martínez-Ruiz C, Turrión MB, Bravo F (2020b) Characterization of mixed and monospecific stands of Scots pine and Maritime pine. Soil profile, physiography, climate, overstory and understory data. Ann For Sci (Under revisión)