Heinz Walz GmbH one of the world’s top producers of highly sophisticated photosynthesis measuring systems. Close connections to leading scientists in basic and applied research have stimulated many innovative developments. Excellence in product quality and service have been a tradition of this company. Our current product line range from the well known PAM-Chlorophyll Fluorometers to measuring systems of plant Gas Exchange. It is complemented by Dew-Point Mirror instruments as well as Cold Traps and Measuring Gas Coolers.
- Business Type:
- Industry Type:
- Agriculture - Agriculture Monitoring and Testing
- Market Focus:
- Internationally (various countries)
- Year Founded:
This company also provides solutions for other industrial applications.
Please, visit the following links for more info:
- Model GFS-3000 - Portable Gas Exchange Fluorescence System
- Model 3010-GWK1 - Gas-Exchange Chamber
- Model PAM-2500 - High-performance Field and Laboratory Chlorophyll Fluorometer
- Model MULTI-COLOR-PAM - Multiple Excitation Wavelength Chlorophyll Fluorescence Analyzer
- Model ULM-500 - Universal Light Meter & Data Logger
Innovation and tradition: These are the driving forces which made the Heinz Walz GmbH one of the world’s top producers of highly sophisticated photosynthesis measuring systems.
Close connections to leading scientists in basic and applied research have stimulated many innovative developments. Excellence in product quality and service have been a tradition of this company since its founding in 1972.
The current product line ranges from the well known PAM chlorophyll fluorometers and light measuring equipment to gas-exchange systems for physiological and ecophysiological research.
Dewpoint-mirror measuring systems as well as cold traps and measuring-gas coolers complement the line of products.
In our field of expertise, we provide custom made solutions, reaching from small specialized accessories to complete measuring stations.
A network of distributors in many countries provides close contact and technical advice to customers throughout the world.
The Heinz Walz GmbH has been serving science for more than 40 years with sophisticated measuring devices for plant research. Further on, the course is set for innovations and developments. Technical progress in LED technology and other electronic components enables us to design instruments with unprecedented analytical potential. These novel devices again drive progress in science.
Vice versa, scientific issues reveal the demand for new instrumentation and, thus, stimulate analytical and technical progress. This kind of fruitful mutual stimulation is based on extensive exchange of information and ideas between researchers and instrument developers.
In this context, we are well prepared for the future by having employed several full-time plant scientists within the company. They are closely associated with a group of external scientists, who are mainly responsible for instrument development (Ulrich Schreiber, Jörg Kolbowski, Rolf Gademann and Christof Klughammer).
Being experienced in basic and applied plant research, these scientists are well aware of the needs of investigators and able to communicate with other scientists on special demands and applications.
The introduction of the first open gas exchange measuring systems in 1977 and the first PAM fluorometers in 1985, triggered a wave of research activities, with the range of new applications steadily growing until today. So far, PAM fluorometry has been used primarily for assessment of PS II activity. Now, the DUAL-PAM-100 system has spurred research on properties of PS I electron transport, thylakoid membrane energization and NADPH formation.
The successful combination of DUAL-PAM technology with gas analysis is expected to stimulate investigations on relationships between photosynthetic electron transport and CO2 fixation. Also, we look ahead to seeing how our new MULTI-COLOR-PAM will help to answer long-standing question on wavelength-dependent aspects of photosynthesis.
Another milestone, which is currently available as prototype, is the KLAS-100 Kinetic LED-Array Spectrophotometer. This very innovative device will allow the deconvolution of 9 different, simultaneously measured absorbance changes (Cyt f, Cyt b-559, Cyt b-563, C550, P515, light scattering peaking at 535 nm, zeaxanthin peaking at 506 nm, P700, plastocyanin) and, thus, may be expected to give new impulses for basic and applied photosynthesis research.