Hop water status in Galicia (NW Spain): eco-physiological approach

To arrive at a good status of all European water bodies is the main objective of the European Union (EU) Water Framework Directive (WFD). Since its adoption in 2000, the policy has fundamentally changed the institutional, procedural and organizational structures of Member States' water management, leading to an Europeanization of national legislation and decision-making structures. The case of WFD implementation in Schleswig-Holstein is an example of the policy's highly innovative governance architecture that unfortunately is not (yet) able to take that one last hurdle: to improve water quality and establish a good water status across EU Member States by 2015 or 2027.

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Distribution of the Iberian Wolf (Canis lupus signatus) in Galicia (NW Spain): Concordance Between Field Sampling and Questionnaires

Wildlife Biology in Practice ◽

10.2461/wbp.2009.5.5 ◽

2009 ◽

Vol 5 (1) ◽

Cited By ~ 2

Author(s):

Luis Llaneza ◽

Paula Núñez-Quirós

Keyword(s):

Canis Lupus ◽

Field Sampling ◽

Nw Spain ◽

Canis Lupus Signatus ◽

Iberian Wolf

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The Physiological Approach to Livestock Nutrition Problems

Journal of Animal Science ◽

10.2527/jas1942.13179x ◽

1942 ◽

Vol 1 (3) ◽

pp. 179-188

Author(s):

L. A. Maynard

Keyword(s):

Physiological Approach

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The Method of Plant Water Status Measurement in Sweet Potato (Ipomoea Batatas (L) Lam.)

Beccariana Botanical Research Bulletin ◽

10.30862/bbrp.v7i1.274 ◽

2010 ◽

Vol 7 (1) ◽

Author(s):

Saraswati Prabawardani

Keyword(s):

Water Content ◽

Sweet Potato ◽

Relative Water Content ◽

Water Status ◽

Plant Water Status ◽

Equilibration Time ◽

Plant Water ◽

Font Size ◽

Potato Leaf ◽

Relative Water

The measurement of plant water status such as leaf water potential (LWP) and leaf relative water content (RWC) is important part of understanding plant physiology and biomass production. Preliminary study was made to determine the optimum amount of leaf abrasion and equilibration time of sweet potato leaf inside the thermocouple psychrometer chambers. Based on the trial, the standard equilibration time curve of a Peltier thermocouple for sweet potato leaf was between 2 and 3 hours. To increase the water vapour conductance across the leaf epidermis the waxy leaf cuticle should be removed or broken by abrasion. The result showed that 4 times leaf rubbings was accepted as the most effective way to increase leaf vapour conductance of sweet potato in the psychrometer chambers. In calculating the leaf relative water content, unstressed water of sweet potato leaves require 4 hours imbibition, whereas water stressed of sweet potato leaves require 5 to 6 hours to reach the saturation time. Either leaf water potential or relative water content can be used as a parameter for plant water status in sweet potato.

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Etude palynologique du Cantabrien et du Barruélien dans les régions de Barruelo et de Tejerina (Nord-Ouest Espagne) / Cantabrian and Barruelian palynology in the areas of Barruelo and Tejerina (NW Spain)

Sciences Géologiques Bulletin ◽

10.3406/sgeol.1995.1921 ◽

1995 ◽

Vol 48 (1) ◽

pp. 49-61

Author(s):

Robert Coquel ◽

Rosa M. Rodriguez

Keyword(s):

Nw Spain

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Monitoring Crop Water Status and Irrigation Needs Using Multispectral Airborne Sensors

HortScience ◽

10.21273/hortsci.30.4.905d ◽

1995 ◽

Vol 30 (4) ◽

pp. 905D-905

Author(s):

Thomas R. Clarke ◽

M. Susan Moran

Keyword(s):

Water Stress ◽

Near Infrared ◽

Water Status ◽

Canopy Cover ◽

Stress Index ◽

Crop Water ◽

Vegetative Cover ◽

Crop Water Stress Index ◽

Water Stress Index ◽

Subsurface Drip

Water application efficiency can be improved by directly monitoring plant water status rather than depending on soil moisture measurements or modeled ET estimates. Plants receiving sufficient water through their roots have cooler leaves than those that are water-stressed, leading to the development of the Crop Water Stress Index based on hand-held infrared thermometry. Substantial error can occur in partial canopies, however, as exposed hot soil contributes to deceptively warm temperature readings. Mathematically comparing red and near-infrared reflectances provides a measure of vegetative cover, and this information was combined with thermal radiance to give a two-dimensional index capable of detecting water stress even with a low percentage of canopy cover. Thermal, red, and near-infrared images acquired over subsurface drip-irrigated cantaloupe fields demonstrated the method's ability to detect areas with clogged emitters, insufficient irrigation rate, and system water leaks.

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