Role of Arbuscular Mycorrhiza in Alleviating Salinity Stress in Wheat (Triticum aestivumL.) Grown Under Ambient and Elevated CO2

Physiological factors involved in positive effects of elevated carbon dioxide concentration on Bermudagrass tolerance to salinity stress

(2015) Jingjin Yu et al.   ENVIRONMENTAL AND EXPERIMENTAL BOTANY

Arbuscular mycorrhiza improve growth, nitrogen uptake, and nitrogen use efficiency in wheat grown under elevated CO2

(2015) Xiancan Zhu et al.   MYCORRHIZA

Increased photosynthetic acclimation in alfalfa associated with arbuscular mycorrhizal fungi (AMF) and cultivated in greenhouse under elevated CO2

(2014) Nieves Goicoechea et al.   JOURNAL OF PLANT PHYSIOLOGY

A meta-analysis of arbuscular mycorrhizal effects on plants grown under salt stress

(2014) Murugesan Chandrasekaran et al.   MYCORRHIZA

Effectiveness of native and exotic arbuscular mycorrhizal fungi on nutrient uptake and ion homeostasis in salt-stressed Cajanus cajan L. (Millsp.) genotypes

(2014) Neera Garg et al.   MYCORRHIZA

Arbuscular mycorrhizal symbiosis alters stomatal conductance of host plants more under drought than under amply watered conditions: a meta-analysis

(2014) Robert M. Augé et al.   MYCORRHIZA

Growth, reproductive phenology and yield responses of a potential biofuel plant,Jatropha curcasgrown under projected 2050 levels of elevated CO2

(2014) Sumit Kumar et al.   PHYSIOLOGIA PLANTARUM

Genotype Influences Sulfur Metabolism in Broccoli (Brassica oleracea L.) Under Elevated CO2 and NaCl Stress

(2014) María del Carmen Rodríguez-Hernández et al.   PLANT AND CELL PHYSIOLOGY

Carbon and nitrogen allocation and partitioning in traditional and modern wheat genotypes under pre-industrial and future CO2conditions

(2014) S. Aljazairi et al.   PLANT BIOLOGY

Changes in alfalfa forage quality and stem carbohydrates induced by arbuscular mycorrhizal fungi and elevated atmospheric CO2

(2013) M. Baslam et al.   ANNALS OF APPLIED BIOLOGY

Elevated CO2 alleviates negative effects of salinity on broccoli (Brassica oleracea L. var Italica) plants by modulating water balance through aquaporins abundance

(2013) Chokri Zaghdoud et al.   ENVIRONMENTAL AND EXPERIMENTAL BOTANY

Increased invasive potential of non-nativePhragmites australis: elevated CO2and temperature alleviate salinity effects on photosynthesis and growth

(2013) Franziska Eller et al.   GLOBAL CHANGE BIOLOGY

Barley Growth and Its Underlying Components are Affected by Elevated CO2 and Salt Concentration

(2013) Usue Pérez-López et al.   JOURNAL OF PLANT GROWTH REGULATION

Regulation of hormonal responses of sweet pepper as affected by salinity and elevated CO2concentration

(2013) María Carmen Piñero et al.   PHYSIOLOGIA PLANTARUM

Effects of arbuscular mycorrhizal fungi on grassland productivity are altered by future climate and below-ground resource availability

(2012) Manu Büscher et al.   ENVIRONMENTAL AND EXPERIMENTAL BOTANY

Regulation by arbuscular mycorrhizae of the integrated physiological response to salinity in plants: new challenges in physiological and molecular studies

(2012) J. M. Ruiz-Lozano et al.   JOURNAL OF EXPERIMENTAL BOTANY

Arbuscular mycorrhizal symbiosis influences strigolactone production under salinity and alleviates salt stress in lettuce plants

(2012) Ricardo Aroca et al.   JOURNAL OF PLANT PHYSIOLOGY

Elevated CO2 reduces stomatal and metabolic limitations on photosynthesis caused by salinity in Hordeum vulgare

(2012) Usue Pérez-López et al.   PHOTOSYNTHESIS RESEARCH

Exposure to warming and CO2 enrichment promotes greater above-ground biomass, nitrogen, phosphorus and arbuscular mycorrhizal colonization in newly established grasslands

(2012) Costanza Zavalloni et al.   PLANT AND SOIL

Arbuscular Mycorrhizal Fungi Increase Organic Carbon Decomposition Under Elevated CO2

(2012) L. Cheng et al.   SCIENCE

Differential responses of stomatal morphology to partial root-zone drying and deficit irrigation in potato leaves under varied nitrogen rates

(2012) Fei Yan et al.   SCIENTIA HORTICULTURAE

Salinity stress alleviation using arbuscular mycorrhizal fungi. A review

(2011) Rosa Porcel et al.   Agronomy for Sustainable Development

Plant nutrient acquisition and utilisation in a high carbon dioxide world

(2011) T. R. Cavagnaro et al.   FUNCTIONAL PLANT BIOLOGY

Agroecology: the key role of arbuscular mycorrhizas in ecosystem services

(2010) Silvio Gianinazzi et al.   MYCORRHIZA

Influence of arbuscular mycorrhiza on organic solutes in maize leaves under salt stress

(2010) Min Sheng et al.   MYCORRHIZA

Arbuscular mycorrhizal fungi in alleviation of salt stress: a review

(2009) Heikham Evelin et al.   ANNALS OF BOTANY

Differential Effects of Pseudomonas mendocina and Glomus intraradices on Lettuce Plants Physiological Response and Aquaporin PIP2 Gene Expression Under Elevated Atmospheric CO2 and Drought

(2009) Maria del Mar Alguacil et al.   MICROBIAL ECOLOGY

Colonization with arbuscular mycorrhizal fungi improves salinity tolerance of tomato (Solanum lycopersicum L.) plants

(2009) Roghieh Hajiboland et al.   PLANT AND SOIL

Plasticity in maximum stomatal conductance constrained by negative correlation between stomatal size and density: an analysis usingEucalyptus globulus

(2009) PETER J. FRANKS et al.   PLANT CELL AND ENVIRONMENT

Elevated atmospheric CO2 concentration ameliorates effects of NaCl salinity on photosynthesis and leaf structure of Aster tripolium L.

(2008) N. Geissler et al.   JOURNAL OF EXPERIMENTAL BOTANY

Influence of arbuscular mycorrhizae on photosynthesis and water status of maize plants under salt stress

(2008) Min Sheng et al.   MYCORRHIZA