ライフサイエンスコーパス: hydraulics

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1 orm in leaf veins critically determines leaf hydraulics.

2 vature that can be adjusted dynamically, via hydraulics.

3 merit of further study into glacier surface hydraulics and biological processes.

4 garding our understanding of soil structure, hydraulics and climate interaction.

5 taken into account as a key process in plant hydraulics and in estimating future effects of climate c

6 estments in the competing xylem functions of hydraulics and mechanical support.

7 and length, but they are ultimately based on hydraulics and mechanics.

8 Leaf structure, photosynthesis, hydraulics and nutrient composition were studied in 33 c

9 stomatal aperture variation and whole-system hydraulics and of the effects of PWS and nocturnal trans

10 We evaluated whether introducing plant hydraulics and topographic convergence-induced soil mois

11 root distribution, plant configuration, soil hydraulics, and climatic conditions.

12 nteraction among wastewater quality, reactor hydraulics, and inactivation kinetics is often neglected

13 At the leaf level, comparisons in hydraulics between cytotypes did not show a consistent p

14 Freeze-thaw events can affect plant hydraulics by inducing embolism.

15 and experimental observations show how soft hydraulics can regulate the size of growing tissue shell

16 However, it is unknown how pedicel hydraulics change developmentally in relation to xylem a

17 Soil and plant hydraulics constrain ecosystem productivity by setting p

18 Leaf hydraulics, gas exchange and carbon storage in Pinus edu

19 reaching implications for inferences in leaf hydraulics, gas exchange, water use, and isotope physiol

20 Coordination between stem photosynthesis and hydraulics in green-stemmed desert plants is important f

21 modeling studies highlight the role of soil hydraulics in the control of water uptake in drying soil

22 rins (AQPs) in the regulation of whole-plant hydraulics, in general, and extravascular, radial hydrau

23 Plant hydraulics integrated water stress along the soil-plant

24 ) the process variability induced by reactor hydraulics is negligible when compared to the one caused

25 ng, and care should be taken when performing hydraulics measurements on excised plant organs containi

26 ppears to matter considerably for whole-tree hydraulics, mechanics, photosynthesis and potentially me

27 We couple a minimalist plant hydraulics model with a soil moisture model and, for the

28 ng field measurements and a plant physiology-hydraulics model, TREES.

29 zation of solutes likely depends on both the hydraulics of resaturation and the dynamics of dissoluti

30 porewater concentration, resulting from the hydraulics of the resaturation process.

31 ecreasing attachment as well as changing the hydraulics of the system.

32 Current theory recognizes a role for the hydraulics of water transport as a potential determinant

33 Although much is known about the hydraulics of xylem, the hydraulic interconnectivity and

34 hat aquaporin-mediated modifications of root hydraulics play a substantial role in the regulation of

35 Our results indicate that hydraulics, rather than carbon starvation, triggers tree

36 ce for many biomes, knowledge regarding herb hydraulics remains very limited.

37 using a model that links leaf morphology and hydraulics to photosynthesis.

38 t to determine whether changes in subglacial hydraulics will limit the potential for the speedup of f

39 y-secured on a spore was achieved via sporal hydraulics with a driving force of 299.75 Torrs (21.7% w

40 d improvement in the representation of plant hydraulics within terrestrial ecosystem and biosphere mo

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