Add to ORKGBackgroundUnder natural conditions, soil nutrients are heterogeneously distributed, and plants have developed adaptation strategies to efficiently forage patchily distributed nutrient. Most previous studies examined either patch strength or patch size separately and focused mainly on root morphological plasticity (increased root proliferation in nutrient-rich patch), thus the effects of both patch strength and size on morphological and physiological plasticity are not well understood. In this study, we examined the foraging strategy of Neyraudia reynaudiana (Kunth) Keng ex Hithc, a pioneer grass colonizing degraded sites, with respect to patch strength and size in heterogeneously distributed phosphorus (P), and how foraging patchily distrib...
In the process towards understanding plant root foraging behaviour, much focus has been on root prol...
Differences in root foraging behavior between species have been well documented, but the effects of ...
Plants can respond to heterogeneous nutrient distribution through selective root placement to enhanc...
BackgroundUnder natural conditions, soil nutrients are heterogeneously distributed, and plants have ...
Abstract We studied the root foraging ability and its consequences for the nutrient acquisition of f...
The morphological plasticity of roots in nutrient-enriched patches of soil is regarded as an adaptiv...
Nutrients are usually patchily distributed in natural soils. Plants are often able to respond to nut...
In natural habitats, the availability of essential mineral nutrients may vary widely from place to p...
Aims and Background: Many plants preferentially grow roots into P-enriched soil patches, but little ...
Nutrient distribution and neighbours can impact plant growth, but how neighbours shape root‐foraging...
Background: Plastic root-foraging responses have been widely recognized as an important strategy for...
Root foraging may increase plant nutrient acquisition at the cost of reducing the total volume of so...
1. Belowground plastic responses to soil nutrient "hot-spots" form a key nutrient foraging strategy ...
Root foraging may increase plant nutrient acquisition at the cost of reducing the total volume of so...
Root growth is influenced by soil nutrients and neighbouring plants, but how these two drivers affec...
In the process towards understanding plant root foraging behaviour, much focus has been on root prol...
Differences in root foraging behavior between species have been well documented, but the effects of ...
Plants can respond to heterogeneous nutrient distribution through selective root placement to enhanc...
BackgroundUnder natural conditions, soil nutrients are heterogeneously distributed, and plants have ...
Abstract We studied the root foraging ability and its consequences for the nutrient acquisition of f...
The morphological plasticity of roots in nutrient-enriched patches of soil is regarded as an adaptiv...
Nutrients are usually patchily distributed in natural soils. Plants are often able to respond to nut...
In natural habitats, the availability of essential mineral nutrients may vary widely from place to p...
Aims and Background: Many plants preferentially grow roots into P-enriched soil patches, but little ...
Nutrient distribution and neighbours can impact plant growth, but how neighbours shape root‐foraging...
Background: Plastic root-foraging responses have been widely recognized as an important strategy for...
Root foraging may increase plant nutrient acquisition at the cost of reducing the total volume of so...
1. Belowground plastic responses to soil nutrient "hot-spots" form a key nutrient foraging strategy ...
Root foraging may increase plant nutrient acquisition at the cost of reducing the total volume of so...
Root growth is influenced by soil nutrients and neighbouring plants, but how these two drivers affec...
In the process towards understanding plant root foraging behaviour, much focus has been on root prol...
Differences in root foraging behavior between species have been well documented, but the effects of ...
Plants can respond to heterogeneous nutrient distribution through selective root placement to enhanc...