ライフサイエンスコーパス: hydroponic

1 correlation under both P levels in soil and hydroponics.

2 c solutions during nutrient recirculation in hydroponics.

3 one stage of P. palmivora root infection in hydroponics.

4 tments were applied for 10 d using supported hydroponics.

5 es, flowers and stems of jambu cultivated in hydroponic and conventional systems was investigated.

6 Hydroponic and mesocosm experiments demonstrate that the

7 Hydroponic and pot trials were conducted with snap bean

8 llan gum-grown plants with those grown under hydroponic and sand culture, significant differences wer

9 isfactorily predicted the RCF and TF in both hydroponic and soil systems, with an R(2) higher than 0.

10 is of investigated plant metabolites both in hydroponic and soil types of cultivation.

11 us') in two types of greenhouse cultivation, hydroponic and soil.

12 farms often use soil-free techniques such as hydroponics and aeroponics.

13 , root system morphology and architecture in hydroponics and grain yield and biomass accumulation und

14 monas for the control of Pythium diseases in hydroponics and Pseudozyma flocculosa for the control of

15 rice plants grown at different densities in hydroponics and soil culture.

16 l horticultural growing substrate for use in hydroponics and vertical farming was created based upon

17 assay where SLs were fed via the roots using hydroponics and with a molecular assay in which transcri

18 Hydroponic approaches are useful to overcome these probl

19 e either artificial growing conditions (e.g. hydroponics), are severely restricted in the fraction of

20 In hydroponics, arsenite was localized in the ovular vascul

21 ainable agriculture have spurred interest in hydroponics as an alternative to conventional farming me

22 Triticum aestivum L.) accessions in soil and hydroponics at low and sufficient P.

23 This study aims to evaluate the effect of hydroponic barley (HB) by substituting control diet with

24 re fed the control diet substituted with 25% hydroponic barley HB (group CHB), and the control diet s

25 tituting 25% of concentrated control diet by hydroponic barley with or without enzymes have positive

26 a rice mutant that displays root coiling in hydroponics but normal gravitropic growth in soil.

27 type rice was unaffected by 100 microm Mn in hydroponics but, when combined with 1 mm malate, this co

28 synthetic SL GR24 via the root system using hydroponics can restore internode length of the SL-defic

29 cation of the UV-C decontamination system in hydroponic circulation water containing nutrients accele

30 s of SPIONs on variations of chlorophyll, in hydroponic condition, together with their ability for re

31 veloped in real soil than those developed in hydroponic conditions and do not show signs of hypoxia.

32 posure of the AuNPs to plant seedlings under hydroponic conditions for a 5-day period was investigate

33 sodium selenite as the selenium source under hydroponic conditions resulting in Se accumulation of up

34 tion kinetics of MBT using Arabidopsis under hydroponic conditions.

35 species have been studied in the context of hydroponic cultivation of strawberry plants.

36 can lead to greater plant productivity than hydroponic cultivation.

37 Plants were then established in hydroponic culture and secretion into the growth medium

38 Here, the response of cucumber plants in hydroponic culture at early development stages to two co

39 Analysis of the hydroponic culture medium at harvest revealed significan

40 arsenic chelator dimercaptosuccinate to the hydroponic culture medium caused a 5-fold-increased arse

41 is between MAb Guy's 13 purified from either hydroponic culture medium or from leaf extracts demonstr

42 sed on three transgenic plant lines grown in hydroponic culture medium, two expressing monoclonal ant

43 is unable to transform B-HCH when growing in hydroponic culture or garden soil.

44 t (Triticum aestivum L. cv Fremont) grown in hydroponic culture under 24-hour continuous irradiation

45 the media of rice seedlings grown in sterile hydroponic culture under a continuous airflow, which res

46 mants were more tolerant to Fe deficiency in hydroponic culture, as shown by higher chlorophyll and F

47 Using barley seedlings in hydroponic culture, we characterized additional inducers

48 DMA(V) were grown to maturity in nonsterile hydroponic culture.

49 rown rice, and in rice grain from nonsterile hydroponic culture.

50 K(+)-sufficient conditions (1.75 mm KCl) in hydroponic culture.

51 water and nutrients were supplied by liquid hydroponic culture.

52 sing polyamine biosynthesis, in salt-treated hydroponic cultures (125 mm sodium chloride, 20 d).

53 Hydroponic culturing of transgenic plants demonstrated C

54 I-70 and NARC-09) under arsenate stress in a hydroponic experiment.

55 rce of nitrogen for radish grown in a second hydroponics experiment.

56 Hydroponic experiments at pH 6.5 with 20 day-old rice pl

57 ean intercropping system, we set up soil and hydroponic experiments comprising two cropping pattern t

58 ncentration, in contrast to the results from hydroponic experiments showing that ammonium uptake domi

59 However, this conclusion is mainly based on hydroponic experiments that separate roots from soils.

60 Here, hydroponic experiments with 20 day old rice plants showe

61 sativa) were quantified and visualized upon hydroponic exposure to Ag-NPs, Ag2S-NPs, and AgNO3 at 3

62 After 10 days of hydroponic exposure, association between particles and r

63 s) in lettuce samples exposed to UV-C in the hydroponic fluid, with control groups not exposed to UV-

64 the determination of essential nutrients in hydroponic growing systems.

65 work presents a pipeline for optimizing semi-hydroponic growth conditions and analyzes the impact on

66 wever, the lack of data-driven approaches in hydroponic growth presents a significant challenge.

67 Hydroponics is a water, energy, space, and cost efficien

68 Two hydroponic lettuce experiments were conducted with diffe

69 el strategy to reduce the nitrate content in hydroponic lettuce.

70 ication of the decontamination method in the hydroponic liquid.

71 d with mesocosm experiments, and bench-scale hydroponic measurements were performed to develop an emp

72 CV-N rhizosecretion at levels of 0.64 mug/ml hydroponic media after 24 days.

73 Because plants grown in hydroponic media can be rapidly and transiently stressed

74 native switchgrass varieties where tested in hydroponic media.

75 noglobulin complexes from plant roots into a hydroponic medium (rhizosecretion) was engineered to pro

76 racted from the leaves or rhizosecreted into hydroponic medium by transgenic plants, was shown to hav

77 Hydroponic medium could be added directly to a chromatog

78 rted when roots were incubated for 12 h in a hydroponic medium supplemented with 200 mm NaCl.

79 re measured in different vegetables grown in hydroponic medium supplemented with heavy metals and com

80 s were relatively stable and taken up from a hydroponic medium through both Arabidopsis leaf petioles

81 MBT depletion kinetics in the hydroponic medium with plants were second order (t1/2 =

82 an PAA-EG-QDs after 11-day incubation in the hydroponic medium), possibly due to electrostatic attrac

83 lated BT was excreted by the plants into the hydroponic medium, a phenomenon not observed previously.

84 -coated QDs displayed destabilization in the hydroponic medium, and generated particulate fluorescenc

85 Rhizosecreted antibody bound to MC-LR in hydroponic medium, and transgenic plants grew more effic

86 concentration when not controlling pH of the hydroponic medium, which resulted in increased alkalinit

87 roduction was examined using plants grown in hydroponic medium.

88 nant proteins from their roots into a simple hydroponic medium.

89 that accumulate in both the plant tissue and hydroponic medium; metabolite representation evolved tem

90 demonstrated in a model system consisting of hydroponic Nicotiana plant cultures expressing a murine

91 Precise control of hydroponic nutrients is essential for growing healthy pl

92 re conducted on 128 samples cultivated using hydroponic, organic, and conventional practices.

93 d to directly determine these surfactants in hydroponic plant growth medium that received simulated g

94 Hydroponic plant growth studies indicate that silver nan

95 ssessment of CAPB and AE biodegradation in a hydroponic plant growth system used as a graywater biore

96 Based on previously published hydroponic plant, planktonic bacterial, and soil microbi

97 utyric acid increased the root dry weight of hydroponic plants, whereas the cytokinins benzylaminopur

98 to provide data-driven insights to optimize hydroponic practices for sustainable food production.

99 t the case for tomatoes grown using the pure hydroponic production system based on the recirculation

100 of microorganisms between vegetables in the hydroponic production system.

101 biopharmaceutical companies, development of hydroponic production systems, and evaluation by regulat

102 icum annuum L. cv Bellboy) plants growing in hydroponics (rockwool) in the greenhouse.

103 moderate (50 mm NaCl) and high (100 mm NaCl) hydroponic salinity treatments.

104 ns the pathway for the development of active hydroponic scaffolds that may increase crop yield in a s

105 lants' root system and growth environment in hydroponics settings.

106 ted with different concentrations of Pb in a hydroponic setup.

107 ne in cucumber plants grown for 35 days in a hydroponic solution by using LC-MS/MS (Orbitrap) analysi

108 In this study, tef plants were grown in a hydroponic solution containing optimum (1 mM) or low (0.

109 olization in mature Zea mays plants grown in hydroponic solution supplemented with selenate or seleni

110 Additionally, a novel hydroponic solution was developed and optimized for Al t

111 of isotopically light Zn by plants from the hydroponic solution.

112 s took up and metabolized 67% of the DNAN in hydroponic solution.

113 ng, even though these QDs were stable in the hydroponic solution.

114 eased removal rates of these pollutants from hydroponic solution.

115 ree of Al tolerance by transformed plants in hydroponic solutions and in naturally acid soil correspo

116 itional plants of one genotype were grown in hydroponic solutions containing lower Cd concentrations

117 ss of a decontamination system using UV-C in hydroponic solutions during nutrient recirculation in hy

118 Growing whole maize seedlings in hydroponic solutions of target estrogens resulted in bot

119 (6PPD-q) at concentrations of 1 mg L(-1) in hydroponic solutions over 14 days to analyze if they are

120 ope fractionation between the plants and the hydroponic solutions was epsilon(66)Zn(uptake) = -1.15 +

121 ves by adding constantly leaching TWP to the hydroponic solutions.

122 racemic mixtures of 5-OH-PCB95 remaining in hydroponic solutions.

123 Active hydroponic substrates that stimulate on demand the plant

124 lants grown under controlled conditions in a hydroponic system (30 muM HgCl2) was compared with that

125 We grew alfalfa, lentil and soy in a hydroponic system amended with soluble salts, containing

126 racterized under standard conditions using a hydroponic system and the Phenopsis platform.

127 A biofortification experiment in a hydroponic system applying two forms of iodine, KI and K

128 efficacy of a sterile and contamination-free hydroponic system for dissecting morphophysiological and

129 t processes color scans of plants grown in a hydroponic system known as EcoFAB, subjected to specific

130 srupted or constitutively overexpressed in a hydroponic system or in soil-grown maize seedlings chall

131 sically labeled plant foods harvested from a hydroponic system with heavy water, vitamin A activity o

132 linity levels of 5, 10, and 15 dS m-(1) in a hydroponic system, and we measured the remediation effic

133 When tested in a hydroponic system, gamma-ECS mature plants accumulated m

134 cts of different methods of Fe delivery in a hydroponic system, root application (90 umol/L), foliar

135 Onion cultures were established in a hydroponic system, treated with Hoagland's solutions at

136 .5549 and 0.6664 for RCF and TF values) in a hydroponic system, which could guide the sustainable des

137 of basil plants (O. basilicum L.) grown in a hydroponic system.

138 ajor factor affecting RCF and TF values in a hydroponic system.

139 nhibitor), or water (untreated control) in a hydroponic system.

140 cultivated using a treated wastewater-based hydroponics system developed for the Trans Himalaya, Ind

141 xperiment was conducted in a greenhouse in a hydroponics system.

142 We discovered that BT in hydroponic systems was rapidly (approximately 1-log per

143 improved the growth and health when grown in hydroponic systems with high concentrations of phenanthr

144 physiological constraints that occur within hydroponic systems.

145 t system was different from that in wheat in hydroponic systems.

146 using CEC-contaminated treated wastewater in hydroponic systems.

147 There were three treatments in the hydroponic trials were: (1) flooded (control), (2) bubbl

148 he near-starchless mutant TL25 were grown in hydroponics under two levels of nitrate, 0.2 versus 6 mM

149 of tomatoes in nutrient and wastewater-based hydroponics were comparable.

150 ciated with enhanced P uptake under low P in hydroponics, whereas Sb03g006765 and Sb03g0031680 allele

151 eaves of 19 diverse cacao genotypes grown in hydroponics with 20 umol L(-1) CdCl(2).

152 ruction during Roman times, to their role as hydroponic (zeoponic) substrate for growing plants on sp