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Publication DateNew Phytologist, ISSN 0028-646X, 3/2015, Volume 205, Issue 4, pp. 1565 - 1576
Little is known about the response of arbuscular mycorrhizal fungal communities to ecosystem development. We use a long-term soil chronosequence that includes...
Pedogenesis | Full papers | Synecology | Community identity | Ecosystems | Mycology | Soil fungi | Plants | Species | Chronosequences | Soil ecology | long‐term chronosequence | ecosystem retrogression | arbuscular mycorrhizal fungal succession | terminal restriction fragment length polymorphism (T‐RFLP) | pyrosequencing | soil nutrient gradients | ecosystem progression | Terminal restriction fragment length polymorphism (T-RFLP) | Ecosystem retrogression | Pyrosequencing | Soil nutrient gradients | Arbuscular mycorrhizal fungal succession | Long-term chronosequence | Ecosystem progression | PLANT-SPECIES DIVERSITY | DUNE SUCCESSION | NEW-ZEALAND | GLOMEROMYCOTA | T-RFLP | SOIL CHRONOSEQUENCE | CHLOROPLAST DNA | LONG-TERM CHRONOSEQUENCES | PLANT SCIENCES | LIFE-HISTORY | long-term chronosequence | TEMPERATE RAIN-FOREST | terminal restriction fragment length polymorphism (T-RFLP) | Multivariate Analysis | Mycorrhizae - genetics | Ecosystem | Molecular Sequence Data | Plants - microbiology | Mycorrhizae - physiology | Biomass | Biodiversity | Sequence Analysis, DNA | Environmental aspects | Chemical properties | Niche (Ecology) | Social aspects
Pedogenesis | Full papers | Synecology | Community identity | Ecosystems | Mycology | Soil fungi | Plants | Species | Chronosequences | Soil ecology | long‐term chronosequence | ecosystem retrogression | arbuscular mycorrhizal fungal succession | terminal restriction fragment length polymorphism (T‐RFLP) | pyrosequencing | soil nutrient gradients | ecosystem progression | Terminal restriction fragment length polymorphism (T-RFLP) | Ecosystem retrogression | Pyrosequencing | Soil nutrient gradients | Arbuscular mycorrhizal fungal succession | Long-term chronosequence | Ecosystem progression | PLANT-SPECIES DIVERSITY | DUNE SUCCESSION | NEW-ZEALAND | GLOMEROMYCOTA | T-RFLP | SOIL CHRONOSEQUENCE | CHLOROPLAST DNA | LONG-TERM CHRONOSEQUENCES | PLANT SCIENCES | LIFE-HISTORY | long-term chronosequence | TEMPERATE RAIN-FOREST | terminal restriction fragment length polymorphism (T-RFLP) | Multivariate Analysis | Mycorrhizae - genetics | Ecosystem | Molecular Sequence Data | Plants - microbiology | Mycorrhizae - physiology | Biomass | Biodiversity | Sequence Analysis, DNA | Environmental aspects | Chemical properties | Niche (Ecology) | Social aspects
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Loading RightsGeoderma, ISSN 0016-7061, 02/2020, Volume 359, p. 113983
Soil organic matter (SOM) is considered an important determinant of soil fertility in tropical agroecosystems. While numerous studies have shown the value of...
Soil organic matter | Nematogenia lacuum | Chronosequence | Agroforestry
Soil organic matter | Nematogenia lacuum | Chronosequence | Agroforestry
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3.
Diversity of plant nutrient-acquisition strategies increases during long-term ecosystem development
NATURE PLANTS, ISSN 2055-026X, 04/2015, Volume 1, Issue 5, pp. 1 - 4
Plant species diversity increases as soil phosphorus availability declines during long-term ecosystem development(1,2). The increase in plant species diversity...
BIODIVERSITY | 2-MILLION-YEAR DUNE CHRONOSEQUENCE | FUNCTIONAL DIVERSITY | MULTIPLE TRAITS | SOIL CHRONOSEQUENCE | PHOSPHORUS LIMITATION | ECONOMICS SPECTRUM | PEDOGENESIS | TEMPERATE RAIN-FOREST | RETROGRESSION | PLANT SCIENCES
BIODIVERSITY | 2-MILLION-YEAR DUNE CHRONOSEQUENCE | FUNCTIONAL DIVERSITY | MULTIPLE TRAITS | SOIL CHRONOSEQUENCE | PHOSPHORUS LIMITATION | ECONOMICS SPECTRUM | PEDOGENESIS | TEMPERATE RAIN-FOREST | RETROGRESSION | PLANT SCIENCES
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Global Change Biology, ISSN 1354-1013, 02/2011, Volume 17, Issue 2, pp. 855 - 871
We combined year‐round eddy covariance with biometry and biomass harvests along a chronosequence of boreal forest stands that were 1, 6, 15, 23, 40, ∼74, and...
secondary succession | net ecosystem production | fire | black spruce | chronosequence | Picea mariana | gross primary production | net primary production | Chronosequence | Net ecosystem production | Black spruce | Fire | Net primary production | Gross primary production | Secondary succession | WOODY DEBRIS | CONSTANT FRACTION | ECOSYSTEM CO2 EXCHANGE | CARBON USE EFFICIENCY | ENVIRONMENTAL SCIENCES | SPRUCE FIRE CHRONOSEQUENCE | INTERIOR ALASKA | ECOLOGY | EDDY COVARIANCE | BIODIVERSITY CONSERVATION | PONDEROSA PINE | AGE | Ecosystems | Comparative studies | Forests | Forest & brush fires | Biomass | Carbon | succession | CARBON | DISTURBANCES | DECAY | boreal forest | 09 BIOMASS FUELS | eddy covariance | carbon cycling | FORESTS | MAINTENANCE | METABOLISM | BIOMASS | RESPIRATION | wildfire | NUTRIENTS | PLANTS | ECOSYSTEMS
secondary succession | net ecosystem production | fire | black spruce | chronosequence | Picea mariana | gross primary production | net primary production | Chronosequence | Net ecosystem production | Black spruce | Fire | Net primary production | Gross primary production | Secondary succession | WOODY DEBRIS | CONSTANT FRACTION | ECOSYSTEM CO2 EXCHANGE | CARBON USE EFFICIENCY | ENVIRONMENTAL SCIENCES | SPRUCE FIRE CHRONOSEQUENCE | INTERIOR ALASKA | ECOLOGY | EDDY COVARIANCE | BIODIVERSITY CONSERVATION | PONDEROSA PINE | AGE | Ecosystems | Comparative studies | Forests | Forest & brush fires | Biomass | Carbon | succession | CARBON | DISTURBANCES | DECAY | boreal forest | 09 BIOMASS FUELS | eddy covariance | carbon cycling | FORESTS | MAINTENANCE | METABOLISM | BIOMASS | RESPIRATION | wildfire | NUTRIENTS | PLANTS | ECOSYSTEMS
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Loading RightsBiotropica, ISSN 0006-3606, 09/2015, Volume 47, Issue 5, pp. 536 - 541
Hurricane‐caused tree mortality in tropical dry forests occurs predominantly in early successional species. Consequently, hurricanes may accelerate succession...
disturbance | Caribbean forests | chronosequence | Florida | Chronosequence | Disturbance
disturbance | Caribbean forests | chronosequence | Florida | Chronosequence | Disturbance
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Loading RightsSoil Biology and Biochemistry, ISSN 0038-0717, 2010, Volume 42, Issue 2, pp. 169 - 177
The aliphatic biopolyesters cutins and suberins have been suggested to significantly contribute to the stable pool of soil organic matter (SOM), and to be...
Cutin | Suberin | Dynamics | Roots | Soil organic matter | C 3/C 4 chronosequence | Shoots | Compound specific isotopic analysis | chronosequence | Environmental Sciences
Cutin | Suberin | Dynamics | Roots | Soil organic matter | C 3/C 4 chronosequence | Shoots | Compound specific isotopic analysis | chronosequence | Environmental Sciences
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Loading RightsScience of The Total Environment, ISSN 0048-9697, 11/2019, p. 135291
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Loading RightsPlant and Soil, ISSN 0032-079X, 6/2013, Volume 367, Issue 1/2, pp. 11 - 39
Background and scope Plant communities and underlying soils undergo substantial, coordinated shifts throughout ecosystem development. However, shifts in the...
Fungi | Pedogenesis | Mycorrhizas | Mycorrhizal fungi | Ecosystems | Soil fungi | Plants | Chronosequences | Soil ecology | Forest soils | MARSCHNER REVIEW | Life Sciences | Nutrient cycling | Succession | Plant–soil feedbacks | Soil chronosequence | Ecosystem development | Mycorrhizal fungi community shifts | Plant Physiology | Ecology | Plant Sciences | Soil Science & Conservation | Retrogression | Plant-soil feedbacks | AGRONOMY | SUCCESSIONAL GLACIER FOREFRONT | DARK SEPTATE ENDOPHYTES | COASTAL SAND-DUNES | MOUNT-ST-HELENS | ANIMAL MUTUALISTIC NETWORKS | LONG-TERM CHRONOSEQUENCES | PLANT SCIENCES | QUERCUS-RUBRA SEEDLINGS | SOIL SCIENCE | PLANT-SOIL FEEDBACK | PINUS-MURICATA SEEDLINGS | TEMPERATE RAIN-FOREST | Microbiological research | Soil research | Research | Health aspects | Soil microbiology | Plant biology | Soils | Nutrients
Fungi | Pedogenesis | Mycorrhizas | Mycorrhizal fungi | Ecosystems | Soil fungi | Plants | Chronosequences | Soil ecology | Forest soils | MARSCHNER REVIEW | Life Sciences | Nutrient cycling | Succession | Plant–soil feedbacks | Soil chronosequence | Ecosystem development | Mycorrhizal fungi community shifts | Plant Physiology | Ecology | Plant Sciences | Soil Science & Conservation | Retrogression | Plant-soil feedbacks | AGRONOMY | SUCCESSIONAL GLACIER FOREFRONT | DARK SEPTATE ENDOPHYTES | COASTAL SAND-DUNES | MOUNT-ST-HELENS | ANIMAL MUTUALISTIC NETWORKS | LONG-TERM CHRONOSEQUENCES | PLANT SCIENCES | QUERCUS-RUBRA SEEDLINGS | SOIL SCIENCE | PLANT-SOIL FEEDBACK | PINUS-MURICATA SEEDLINGS | TEMPERATE RAIN-FOREST | Microbiological research | Soil research | Research | Health aspects | Soil microbiology | Plant biology | Soils | Nutrients
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Loading RightsForest Ecology and Management, ISSN 0378-1127, 11/2019, Volume 451, p. 117536
The objective of this study was to investigate the effect of afforestation of post-arable sandy soils (Dystric Arenosols) with Scots pine ( L.) on the amount...
Chronosequence | Genetic horizons | Afforestation | Carbon, nitrogen and phosphorus stocks
Chronosequence | Genetic horizons | Afforestation | Carbon, nitrogen and phosphorus stocks
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Loading RightsEUROPEAN JOURNAL OF SOIL SCIENCE, ISSN 1351-0754, 01/2018, Volume 69, Issue 1, pp. 69 - 85
To examine how climate affects soil development and nutrient availability over long timescales, we studied a series of four long-term chronosequences along a...
LONG-TERM CHRONOSEQUENCE | PHOSPHORUS | SOIL SCIENCE | PEDOGENIC THRESHOLDS | WESTERN-AUSTRALIA | 2-MILLION-YEAR DUNE CHRONOSEQUENCE | NUTRIENT LIMITATION | SOIL DEVELOPMENT | PLANT DIVERSITY | BIODIVERSITY HOTSPOT | DECLINE
LONG-TERM CHRONOSEQUENCE | PHOSPHORUS | SOIL SCIENCE | PEDOGENIC THRESHOLDS | WESTERN-AUSTRALIA | 2-MILLION-YEAR DUNE CHRONOSEQUENCE | NUTRIENT LIMITATION | SOIL DEVELOPMENT | PLANT DIVERSITY | BIODIVERSITY HOTSPOT | DECLINE
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Loading RightsForestry, ISSN 0015-752X, 10/2011, Volume 84, Issue 4, pp. 411 - 418
Since the 1970s, a long-term research project has been conducted to monitor the changes in primary productivity of Chinese fir plantation at Huitong Ecosystem...
CHRONOSEQUENCE | MOUNTAIN | FORESTRY | AVAILABILITY | GROWTH
CHRONOSEQUENCE | MOUNTAIN | FORESTRY | AVAILABILITY | GROWTH
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Loading RightsJournal of Basic Microbiology, ISSN 0233-111X, 08/2018, Volume 58, Issue 8, pp. 704 - 711
Soil microbes play critical roles in global biogeochemical cycles, but their succession patterns across long temporal scales have rarely been studied. In this...
long‐term chronosequence | temporal scale | slope aspect | microbial succession | soil microbes | Microbial succession | Slope aspect | Long-term chronosequence | Soil microbes | Temporal scale | PLANT | PATTERNS | MICROBIOLOGY | DRIVERS | BACTERIAL | CHRONOSEQUENCE | SLOPE ASPECTS | ORGANIC-CARBON | NITROGEN | long-term chronosequence | DIVERSITY | VEGETATION | Analysis | Soil microbiology
long‐term chronosequence | temporal scale | slope aspect | microbial succession | soil microbes | Microbial succession | Slope aspect | Long-term chronosequence | Soil microbes | Temporal scale | PLANT | PATTERNS | MICROBIOLOGY | DRIVERS | BACTERIAL | CHRONOSEQUENCE | SLOPE ASPECTS | ORGANIC-CARBON | NITROGEN | long-term chronosequence | DIVERSITY | VEGETATION | Analysis | Soil microbiology
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Loading RightsScience of the Total Environment, ISSN 0048-9697, 07/2018, Volume 628-629, pp. 840 - 847
During COP 21 in Paris 2015, several states and organizations agreed on the “4/1000” initiative for food security and climate. This initiative aims to increase...
Climate change | Chronosequence | OC accumulation | Radiocarbon | Food security | Land use
Climate change | Chronosequence | OC accumulation | Radiocarbon | Food security | Land use
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Loading RightsBiogeosciences, ISSN 1726-4170, 04/2013, Volume 10, Issue 4, pp. 2525 - 2537
Phosphorus (P) is a major element required for biological activity in terrestrial ecosystems. Although the total P content in most soils can be large, only a...
CHRONOSEQUENCE | GEOSCIENCES, MULTIDISCIPLINARY | NEW-ZEALAND | CARBON | TROPICAL FORESTS | IRON REDUCTION | RAIN-FOREST | ECOLOGY | NUTRIENT LIMITATION | PEDOGENESIS | MASS-BALANCE | HEDLEY FRACTIONATION | Soils | Models | Phosphorus content | Analysis
CHRONOSEQUENCE | GEOSCIENCES, MULTIDISCIPLINARY | NEW-ZEALAND | CARBON | TROPICAL FORESTS | IRON REDUCTION | RAIN-FOREST | ECOLOGY | NUTRIENT LIMITATION | PEDOGENESIS | MASS-BALANCE | HEDLEY FRACTIONATION | Soils | Models | Phosphorus content | Analysis
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