Influence of abiotic stress on Amaranthus cruentus 513 allelopathic properties, S Afr J Bot, p.306, 2016. ,
Osmotic pressure influence in germination tests for antibiosis, Science, vol.515, pp.771-773, 1966. ,
Temperature but not moisture response of 517 germination shows phylogenetic constraints while both interact with seed mass and life span, 518 Seed Science Research, vol.27, pp.110-120, 2017. ,
Hypoxia interferes with 520 ABA metabolism and increases ABA sensitivity in embryos of dormant barley grains, J Exp, vol.521, pp.1423-1430, 2006. ,
The representation of allelopathy in ecosystem-level forest models, Ecol Model, vol.523, pp.65-77, 2007. ,
Allelopathic effects of 525 sunflower extracts on mustard seed germination and seedling growth, Biol Plant, vol.50, pp.156-158, 2006. ,
Maximum likelihood estimation and analysis with the bbmle package, 2017. ,
Applications of hydrothermal time to quantifying and modeling seed 528 germination and dormancy, Weed Sci, vol.50, pp.248-260, 2002. ,
Quantifying the sensitivity of barley 530 seed germination to oxygen, abscisic acid, and gibberellin using a population-based threshold 531 model, J Exp Bot, vol.59, pp.335-347, 2008. ,
Forest rodents provide directed dispersal of Jeffrey pine 533 seeds, Ecology, vol.90, pp.675-687, 2009. ,
, , p.535
Plant secondary metabolites: a key driver of litter decomposition and soil 536 nutrient cycling, J Ecol, vol.104, pp.1527-1541, 2016. ,
Incorporating the allelopathy trait in upland rice breeding 538 programs, Allelopathy in Rice, pp.57-68, 1998. ,
Do co-occurring plant species adapt to one another? The response of 540, 2004. ,
, Bromus erectus to the presence of different Thymus vulgaris chemotypes, Oecologia, vol.141, pp.541-511
Phytochemical 543 Ecology: allelochemicals, mycotoxins and insect pheromones and allomones, 1989. ,
Interactions involving allelopathy in cropping systems, Agron J, vol.88, pp.886-893, 1996. ,
Interactions of temperature and ferulic acid stress on grain sorghum 546 and soybeans, J Chem Ecol, vol.10, pp.161-170, 1984. ,
Potential allelopathic effect of Pinus halepensis in the secondary succession: an 549 experimental approach, Bousquet-Mélou A, vol.548, pp.97-105, 2006. ,
, , p.551
The impact of competition and allelopathy on the trade-off 552 between plant defense and growth in two contrasting tree species, Frontiers in plant science, vol.553, pp.594-594, 2015. ,
, , p.555, 2013.
, Allelochemicals of Pinus halepensis as drivers of biodiversity in Mediterranean open mosaic 556 habitats during the colonization stage of secondary succession, J Chem Ecol, vol.39, pp.298-311
A compound from smoke that 558 promotes seed germination, Science, vol.305, pp.977-977, 2004. ,
Seasonality effect 560 on the allelopathy of cerrado species, Braz J Biol, vol.74, pp.64-069, 2014. ,
Do litter-562 mediated plant-soil feedbacks influence Mediterranean oak regeneration? A two-year pot 563 experiment, Plant Soil, vol.430, pp.59-71, 2018. ,
, , p.565
Phenolics of the understory shrub Cotinus coggygria influence 566 Mediterranean oak forests diversity and dynamics, For Ecol Manage, vol.441, pp.262-270, 2019. ,
Climate change projections for the Mediterranean region, Global Planet 568 Change, vol.63, pp.90-104, 2008. ,
, , p.570
Biotic interactions in a Mediterranean oak forest: role of 571 allelopathy along phenological development of woody species, European Journal of Forest 572 Research, vol.136, pp.699-710, 2017. ,
Effect of allelopathic 574 compounds produced by Cistus ladanifer on germination of 20 Mediterranean taxa, Plant 575 Ecol, vol.184, pp.259-272, 2006. ,
On the increased frequency of 577 Mediterranean drought, J Clim, vol.25, pp.2146-2161, 2012. ,
Post-genomics dissection of seed 579 dormancy and germination, Trends Plant Sci, vol.13, pp.7-13, 2008. ,
The contribution of germination 581 functional traits to population dynamics of a desert plant community, Ecology, vol.97, pp.250-261, 2016. ,
, World reference base for soil resources, IUSS Working Group WRB, 2006.
Allelopathic effects of foliage extracts from four Chenopodiaceae 585 species on seed germination, J Arid Environ, vol.55, pp.275-285, 2003. ,
Phytotoxical 587 effect of Lepidium draba L. extracts on the germination and growth of monocot (Zea mays 588 L.) and dicot (Amaranthus retroflexus L.) seeds, Toxicol Ind Health, vol.31, pp.247-254, 2015. ,
Climate change effects on species interactions in an alpine plant community, J 590 Ecol, vol.93, pp.127-137, 2005. ,
Factors affecting phytotoxic activity of allelochemicals in soil, Weed Biol, vol.592, pp.1-7, 2004. ,
Ecological effects of allelopathic plants-a review, vol.594, 2000. ,
Effect of water stress, seed coat restraint, and abscisic acid upon 596 different germination capabilities of two tomato lines at low temperature, Plant Physiol, vol.73, pp.597-935, 1983. ,
Allelopathic potential of Cistus ladanifer 599 chemicals in response to variations of light and temperature, Chemoecology, vol.12, pp.139-145, 2002. ,
Toxic and non-toxic strains of 601, 2015. ,
, Microcystis aeruginosa induce temperature dependent allelopathy toward growth and 602 photosynthesis of Chlorella vulgaris, Harmful Algae, vol.48, pp.21-29
Allelopathy in forest and agroecosystems in the Himalayan region, 1992. ,
,
Evaluation of the water potentials of solutions of polyethylene glycol 8000 both in 606 the absence and presence of other solutes, Plant Physiol, vol.72, pp.66-70, 1983. ,
Quantitative models characterizing seed germination responses to 608 abscisic acid and osmoticum, Plant Physiol, vol.98, pp.1057-1068, 1992. ,
Barley autotoxicity as 610 influenced by varietal and seasonal variation, Journal of Agronomy and Crop Science, vol.191, pp.611-249, 2005. ,
Latitudinal patterns in plant defense: evolution of cardenolides, 613 their toxicity and induction following herbivory, Ecol Lett, vol.14, pp.476-483, 2011. ,
, , 1984.
The relative importance of allelopathy in interference: the 617 effects of an invasive weed on a native bunchgrass, Oecologia, vol.126, pp.444-450, 2001. ,
, , p.619, 2016.
, Effects of climate warming on plant autotoxicity in forest evolution: a case simulation 620 analysis for Picea schrenkiana regeneration, Ecol Evol, vol.6, pp.5854-5866
Chemical effects of a dominant grass on seed 622 germination of four familial pairs of dry grassland species, Seed Science Research, vol.18, pp.239-623, 2008. ,
Germination traits explain soil seed persistence 625 across species: the case of Mediterranean annual plants in cereal fields, Ann Bot, vol.107, pp.415-626, 2011. ,
, , vol.628
, , p.630
A 631 research agenda for seed---trait functional ecology, New Phytol, vol.221, pp.1764-1775, 2019. ,
Control of seed germination by abscisic acid: II. Effect on embryo 633 water uptake in Brassica napus L, Plant Physiol, vol.76, pp.155-160, 1984. ,
Plant growth 635 inhibitors: allelopathic role or phytotoxic effects? Focus on Mediterranean biomes, 636 Phytochem Rev, vol.12, pp.803-830, 2013. ,
Perception and modification of plant flavonoid signals by 638 rhizosphere microorganisms, Environ Microbiol, vol.8, pp.1867-1880, 2006. ,
Allelopathic effects of tree species on some 641 soil microbial populations and herbaceous plants, Biol Plant, vol.44, pp.269-275, 2001. ,
Comparative analysis of allelopathic effects produced by 643 four forestry species during decomposition process in their soils in Galicia (NW Spain), J 644 Chem Ecol, vol.20, pp.3005-3015, 1994. ,
The effects of gibberellic acid and kinetin on overcoming the effects 646 of juglone stress on seed germination and seedling growth, Turkish Journal of Botany, vol.34, pp.67-647, 2010. ,
Allelopathic effects of 649 plants extracts on physiological and cytological processes during maize seed germination, Allelopathy Journal, vol.650, p.273, 2008. ,
, , vol.652
The 653 decision to germinate is regulated by divergent molecular networks in spores and seeds, Phytol, vol.654, pp.952-966, 2016. ,
Allelochemicals as leads for new herbicides and agrochemicals, Tetrahedron, vol.58, pp.656-1631, 2002. ,
Elevated temperature may 658 accelerate invasive expansion of the liana plant Ipomoea cairica, Weed Res, vol.51, pp.574-580, 2011. ,
Why are secondary metabolites (natural 660 products) biosynthesized?, J Nat Prod, vol.52, pp.1189-1208, 1989. ,
Physiological effects of autotoxicity due 662 to DHAP stress on Picea schrenkiana regeneration, PloS one, vol.12, p.177047, 2017. ,
Use of gibberellic acid to overcome the 664 allelopathic effect of a range of species on the germination of seeds of Gentiana rigescens, a 665 medicinal herb, Seed Science and Technology, vol.40, pp.443-447, 2012. ,